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ISL8274MAIRZ

ISL8274MAIRZ

  • 厂商:

    RENESAS(瑞萨)

  • 封装:

    HDA58 模块

  • 描述:

    DC DC CONVERTER 0.6-5V 0.6-5V

  • 数据手册
  • 价格&库存
ISL8274MAIRZ 数据手册
DATASHEET ISL8274M FN8931 Rev.1.00 Jan 4, 2018 30A/30A Dual-Channel Digital PMBus Step-Down Power Module The ISL8274M is a complete PMBus enabled DC/DC, dual-channel, step-down advance power supply, capable of delivering up to 30A per channel and optimized for high power density applications. Operating across an input voltage range of 4.5V to 14V, the ISL8274M offers adjustable output voltages down to 0.6V and achieves up to 95.5% conversion efficiencies. A unique ChargeMode™ control architecture provides a single clock cycle response to an output load step and can support switching frequencies up to 1.06MHz. The power module integrates all power and most passive components and requires only a few external components to operate. A set of optional external resistors allows the user to easily configure the device for standard operation. For advanced configurations, a standard PMBus interface addresses tasks such as sequencing and fault management, as well as real-time full telemetry and point-of-load monitoring. Additionally, the nonvolatile memory can store the desired custom configuration and settings. A fully customizable voltage, current, and temperature protection scheme ensures safe operation for the ISL8274M under abnormal operating conditions. The device is also supported by the PowerNavigator™ software, a full digital power train development environment. The ISL8274M is available in a low profile, compact 18mmx23mmx7.5mm fully encapsulated, thermally enhanced HDA package. Applications Features • Complete digital power supply • 30A/30A dual-channel output current • 4.5V to 14V single rail input voltage • Up to 95.5% efficiency • Programmable output voltage • 0.6V to 5V output voltage settings • ±1.2% accuracy over line/load/temperature • ChargeMode control loop architecture • 296kHz to 1.06MHz fixed switching frequency operations • No compensation required • Fast single clock cycle transient response • PMBus interface and/or pin-strap mode • Fully programmable through PMBus • Pin-strap mode for standard settings • Real-time telemetry for VIN, VOUT, IOUT, temperature, duty cycle, and fSW • Advanced soft-start/stop, sequencing, and tracking • Internal nonvolatile memory • Complete over/undervoltage, current, and temperature protections with fault logging • Server, telecom, storage, and datacom • PowerNavigator supported • Industrial/ATE and networking equipment • Thermally enhanced 18mmx23mmx7.5mm HDA package • General purpose power for ASIC, FPGA, DSP, and memory Related Literature • For a full list of related documents, visit our website • ISL8274M product page FN8931 Rev.1.00 Jan 4, 2018 Page 1 of 81 ISL8274M VIN VOUT1 VIN CIN VSENP1 VDD VSENN1 ENABLE1 COUT1 EN1 EN2 ENABLE2 10µF VOUT1 10µF VR5 VOUT2 VR6 VSENP2 ISL8274M VDRV VSENN2 VOUT2 COUT2 VCC SCL VDRV1 100k SDA 2x10µF SALRT VMON 6.65k  PMBUS INTERFACE VR VR55 SGND SA PGND Note: This figure represents a typical implementation of the ISL8274M. For PMBus operation, it is recommended to tie the enable pin (EN) to SGND. Figure 1. Application Circuit m 23 m m 1 8m 7.5mm Figure 2. Small Package for High Power Density FN8931 Rev.1.00 Jan 4, 2018 Page 2 of 81 ISL8274M Contents 1. Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 1.1 1.2 1.3 1.4 1.5 2. Typical Application Circuits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ISL8274M Internal Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Pin Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Pin Descriptions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 6 7 8 9 Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 2.1 2.2 2.3 2.4 3. Absolute Maximum Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Thermal Information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Recommended Operation Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 12 12 13 Typical Performance Curves. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 3.1 3.2 3.3 3.4 4. Efficiency Performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Startup and Shutdown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Derating Curves. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Transient Response Performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 17 18 20 Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 4.10 4.11 4.12 4.13 4.14 4.15 4.16 4.17 4.18 4.19 5. SMBus Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Output Voltage Selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Soft-Start, Stop Delay, and Ramp Times . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Voltage Tracking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Power-Good. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Switching Frequency and PLL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Output Overcurrent Protection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Loop Compensation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . SMBus Module Address Selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Output Overvoltage Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Output Prebias Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Thermal Overload Protection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Digital-DC Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Phase Spreading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Fault Spreading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Output Sequencing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Monitoring Using SMBus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Snapshot Parameter Capture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Nonvolatile Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 21 22 24 25 25 27 27 28 29 29 30 31 31 31 31 32 32 32 Layout Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33 5.1 5.2 Thermal Considerations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 Package Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 FN8931 Rev.1.00 Jan 4, 2018 Page 3 of 81 ISL8274M 5.3 5.4 5.5 5.6 6. PCB Layout Pattern Design. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Thermal Vias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Stencil Pattern Design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Reflow Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 34 34 35 PMBus Command Summary. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 6.1 6.2 6.3 PMBus Data Formats. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 PMBus Use Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 7. PMBus Commands Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 8. Firmware Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72 9. Package Outline Drawing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 10. Revision History. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80 FN8931 Rev.1.00 Jan 4, 2018 Page 4 of 81 Overview Typical Application Circuits EN1 EN2 (Note 2) SCL SDA SDA SALRT VIN 4.5V to 14V 12x100µF CERAMIC 8x22µF + 4x47µF Ceramic C2 C8 VIN C3 ISL8274M VR5 10µF 10µF C4 C5 C6 VSENP1 VR6 10µF 12x100µF CERAMIC C7 1x470µF POSCAP VOUT2 VCC VOUT2 1.5V 30A VDRV1 C9 VSENN2 VSENP2 PGND VR VR55 SW2 SWD2 SWD1 SW1 SGND C8 VMON R6 6.65k  C9 VSENN1 VDRV R5 100k  VOUT1 1.5V 30A VDD 10µF VCC 10µF 1x470µF POSCAP VOUT1 SALRT 2x470µF Bulk C1 ASCR2 DDC SCL R 13 ASCR1 DDC R 11 R12 SYNC/OCP R4 R10 SS/TRACK R3 VSET2 R2 R9 VSET1 R1 R8 SA/CFG R7 PG1 PG2 VTRKP VTRKN (Note 1) VAUX or VCC 3.3V to 5V (Note 3) Should be active before enable 10k  10k  10k 10k  PG1 PG2 VTRKP VTRKN Pin Strap Resistors (Optional) EN1 EN2 1.1 ISL8274M FN8931 Rev.1.00 Jan 4, 2018 1. Figure 3. ISL8274M Digital PMBus Module Dual 30A/30A Application with Pinstrap Settings 1. Overview Page 5 of 81 Notes: 1. R2 and R3 are not required if the PMBus host already has I2C pull-up resistors. 2. Only one R4 per DDC bus is required when multiple modules share the same DDC bus. 3. R7 through R13 can be selected according to the tables for the pin-strap resistor setting in this document. If the PMBus configuration is chosen to overwrite the pin-strap configuration, R8 through R13 can be non-populated. 4. V25, VR, and VR55 do not need external capacitors. V25 can be no connection. ISL8274M VDRV1 VDRV VCC VIN VR VR55 V25 VR5 VR6 ISL8274M Internal Block Diagram VDD 1.2 1. Overview LDO Logic LDOs VOUT2 VDRV1 OV/UV Current Share Interleave OT/UT OC/UC Power Management Sequence Fault Spreading Margining PGND SS SNAPSHOT SWD2 SW2 0.19µH ASCR1/2 VSET1/2 SS/TRACK EN1/2 DDC PG1/2 VDRV VIN Filter SYNC OUT SYNC/ OCP PWM2 PLL D-PWM PWM1 ChargeMode Control Supervisor VIN VDRV NVM SWD1 SW1 ADC 0.19µH CSA VDRV1 ADC Logic Protection VOUT1 CSA PGND ADC VDD VSA1/2 ADC Internal Temp Sensor SCL SDA SALRT PMBus/I2C Interface VSEN1/2P VSA SA/CFG VSEN1/2N SGND 100 : 100 : PGND SGND VMON VTRKN VTRKP Digital Controller VOUT1/2 Figure 4. Internal Block Diagram FN8931 Rev.1.00 Jan 4, 2018 Page 6 of 81 ISL8274M 1.3 1. Overview Ordering Information Part Number (Notes 5, 6, 7) Part Marking ISL8274MAIRZ ISL8274MA ISL8274MEVAL1Z Evaluation Board Temp Range (°C) Package (RoHS Compliant) -40 to +85 Pkg. Dwg. # 58 LD 18x23 HDA Module Y58.18x23 Notes: 5. Add “-T” suffix for 100 unit tape and reel option. Refer to TB347 for details on reel specifications. 6. These Pb-free plastic packaged products are RoHS compliant by EU exemption 7C-I and 7A. They employ special Pb-free material sets; molding compounds/die attach materials and NiPdAu plate-e4 termination finish, which is compatible with both SnPb and Pb-free soldering operations. Pb-free products are MSL classified at Pb-free peak reflow temperatures that meet or exceed the Pb-free requirements of IPC/JEDEC J STD-020. 7. For Moisture Sensitivity Level (MSL), see the product information page for the ISL8274M. For more information on MSL, see TB363. ISL xxxxM F T R Z S INTERSIL DEVICE DESIGNATOR SHIPPING OPTION BLANK: BULK -T: TAPE AND REEL BASE PART NUMBER ROHS Z: ROHS COMPLIANT FIRMWARE REVISION A: G0100 OPERATING TEMPERATURE I: INDUSTRIAL (-40°C TO +85°C) PACKAGE DESIGNATOR R: HIGH DENSITY ARRAY (HDA) Table 1. Key Differences Between Family of Parts Part Description VIN Range (V) VOUT Range (V) IOUT (A) ISL8274M Digital DC/DC PMBus Dual Channel 30A/30A Module 4.5 - 14 0.6 - 5.0 30/30 ISL8272M Digital DC/DC PMBus Single Channel 50A Module 4.5 - 14 0.6 - 5.0 50 ISL8273M Digital DC/DC PMBus Single Channel 80A Module 4.5 - 14 0.6 - 2.5 80 ZL9024M Digital DC/DC PMBus Single Channel 33A Module 2.75-4 0.6 - 1.5 33 FN8931 Rev.1.00 Jan 4, 2018 Page 7 of 81 ISL8274M 1.4 1. Overview Pin Configuration ISL8274M (58 Ld HDA) Top View 1 2 3 4 A VSET2 C PGND PGND 8 VSET1 10 11 12 VOUT2 ASCR1 VMON U 17 18 EN2 VSEN2P SYNC/OCP EN1 VTRKP PGND VSEN2N PAD6 PG2 PGND PAD7 PAD5 T 16 V25 SGND VDD SGND PGND VR5 VR SWD1 M R 15 PAD2 SALRT SDA PG1 DDC VSEN1N VSEN1P L P 14 SA/CFG K N 13 SCL ASCR2 VTRKN J 9 VOUT1 SS/TRACK E H 7 PAD4 PAD3 D G 6 PAD1 B F 5 PGND VCC VR6 SGND VR55 PAD8 PGND VDRV VDRV SWD2 VDRV1 VDRV1 VIN PAD9 VIN PAD10 PGND PAD12 PAD11 VIN PGND V W PGND SW1 PGND SW2 Y AA PAD15 PAD13 AB AC FN8931 Rev.1.00 Jan 4, 2018 PAD14 PAD16 Page 8 of 81 ISL8274M 1.5 1. Overview Pin Descriptions Pin Number Pin Name PAD1 VOUT1 PWR Power supply output voltage. Channel 1 provides an output voltage from 0.6V to 5V. Refer to the “Functional Description” on page 21 to set the maximum output current from these pads. PAD2 VOUT2 PWR Power supply output voltage. Channel 2 provides an output voltage from 0.6V to 5V. Refer to the “Functional Description” on page 21 to set the maximum output current from these pads. PAD3, PAD4, PAD5, PAD7, PAD10, PAD12, PAD13, PAD15 PGND PWR Power ground. Refer to the “Layout Guide” on page 33 for the PGND pad connections and I/O capacitor placement. PWR Signal ground. Refer to “Layout Guide” on page 33 for the SGND pad connections. Type Description PAD6 SGND PAD8, PAD9, PAD11 VIN PWR Input power supply voltage to power the module. Input voltage ranges from 4.5V to 14V. PAD14 SW1 PWR Switching node pads for Channel 1. The SW1 pad is used to dissipate the heat and provide the good thermal performance. Refer to “Layout Guide” on page 33 for the SW1 pad connections. PAD16 SW2 PWR Switching node pads for Channel 2. The SW2 pad is used to dissipate the heat and provide the good thermal performance. Refer to “Layout Guide” on page 33 for the SW2 pad connections. C5 VSET2 I Output voltage selection pin for Channel 2. Used to set VOUT2 set point and VOUT2 max. C6 VSET1 I Output voltage selection pin for Channel 1. Used to set VOUT1 set point and VOUT1 max. C7 ASCR2 I ChargeMode control ASCR parameters selection pin for Channel 2. Used to set ASCR gain and residual values. C8 ASCR1 I ChargeMode control ASCR parameters selection pin for Channel 1. Used to set ASCR gain and residual values. C9 VMON I Driver voltage monitoring. Use this pin to monitor VDRV through an external 16:1 resistor divider. C10 SA/CFG I Serial address selection pin. Used to assign unique address for each individual device or to enable certain management features. This pin also sets the UVLO level. C11 SALRT O Serial alert. Connect to external host if desired. SALRT is asserted low upon a warning or a fault event and deasserted when warning or fault is cleared. A pull-up resistor is required. C12 SDA I/O Serial data. Connect to external host and/or to other Digital-DC™ devices. A pull-up resistor is required. C13 SCL I/O Serial clock. Connect to external host and/or to other Digital-DC devices. A pull-up resistor is required. D4 SS/ TRACK I Soft-start/stop selection pin. Used to set turn on/off delay and ramp time as well as tracking configuration. D5 PG1 O Power-good output for Channel 1. Power-good output can be an open drain that requires a pull-up resistor or push-pull output that can drive a logic input. D13 SYNC/ OCP I/O Clock synchronization input and OCP setting pin. Used to set the frequency of the internal switch clock, to sync to an external clock or to output internal clock. If external synchronization is used, the external clock must be active before enable. Different OCP level can be set with this pin. D14 EN2 I Enable pin for Channel 2. Logic high to enable the module output. E14 EN1 I Enable pin for Channel 1. Logic high to enable the module output. E4 DDC I/O E15 VSEN2P I Differential output voltage sense feedback for Channel 2. Connect to positive output regulation point. F4 VTRKP I Tracking sense positive input. Used to track an external voltage source. F15 VSEN2N I Differential output voltage sense feedback for Channel 2. Connect to negative output regulation point. FN8931 Rev.1.00 Jan 4, 2018 A Digital-DC bus. This dedicated bus provides the communication between devices for features such as sequencing, fault spreading and current sharing. The DDC pin on all Digital-DC devices should be connected together. A pull-up resistor is required. Page 9 of 81 ISL8274M 1. Overview Pin Number Pin Name Type G4 VTRKN I Tracking sense negative input (return). G14 PG2 O Power-good output for Channel 2. Power-good output can be an open drain that requires a pull-up resistor or push-pull output that can drive a logic input. G15 V25 H3 VSEN1N I Differential output voltage sense feedback for Channel 1. Connect to a negative output regulation point. H4 VSEN1P I Differential output voltage sense feedback for Channel 1. Connect to a positive output regulation point. H16, J16, K16, M14 SGND K14 VDD L2 VR PWR Internal LDO bias pin. Tie VR to VR55 directly with a short loop trace. Not recommended to power external circuits. L3 SWD1 PWR Switching node driving pins for Channel 1. Directly connect to the SW1 pad with short loop wires. P11 SWD2 PWR Switching node driving pins for Channel 2. Directly connect to the SW2 pad with short loop wires. L14 VR5 PWR Internal 5V reference used to power internal circuitry. Place a 10µF decoupling capacitor for this pin. Maximum external loading current is 5mA. M1 VCC PWR Internal LDO output. Connect VCC to VDRV for internal LDO driving. M5, M17, N5 PGND PWR Power grounds. Using multiple vias to connect the PGND pins to the internal PGND layer. M10 VR55 PWR Internal 5.5V bias voltage for internal LDO use only. Tie VR55 pin directly to the VR pin. Not recommended to power external circuit. M13 VR6 PWR Internal 6V reference used to power internal circuitry. Place a 10µF decoupling capacitor for this pin. Not recommended to power external circuit. N6, N16 VDRV PWR Power supply for internal FET drivers. Connect a 10μF bypass capacitor to each of these pins. These pins can be driven by the internal LDO through VCC pin or by the external power supply directly. Keep the driving voltage between 4.5V and 5.5V. For 5V input application, use external supply or connect this pin to VIN. R8, R17 VDRV1 Description PWR Internal 2.5V reference used to power internal circuitry. No external capacitor required for this pin. Not recommended to power external circuits. PWR Signal grounds. Use multiple vias to connect the SGND pins to the internal SGND layer. PWR Input supply voltage for controller. Connect VDD pad to VIN supply. I Bias pin of the internal FET drivers. Always tie to VDRV. Table 2. ISL8274M Design Guide Matrix and Output Voltage Response VOUT (V) IOUT (A) Avg OCP (A) COUT_Bulk (µF) COUT_Ceramic (µF) ASCR Gain ASCR Residual Peak-to-Peak (mV) Frequency (kHz) 5 25 30 1*470 6*100 275 100 170 1067 5 20 25 1*470 6*100 175 80 150 615 3.3 25 30 1*470 8*100 300 90 150 800 3.3 20 25 1*470 8*100 175 80 140 571 2.5 30 35 1*470 9*100 600 100 110 1067 2.5 25 30 1*470 9*100 350 100 120 615 2.5 20 25 1*470 9*100 175 90 100 471 1.8 30 35 1*470 12*100 600 100 90 889 1.8 25 30 1*470 12*100 250 100 100 421 1.8 20 25 1*470 12*100 200 100 100 364 1.5 30 35 1*470 12*100 525 90 90 889 1.5 25 30 1*470 12*100 250 100 90 421 FN8931 Rev.1.00 Jan 4, 2018 Page 10 of 81 ISL8274M 1. Overview Table 2. ISL8274M Design Guide Matrix and Output Voltage Response (Continued) VOUT (V) IOUT (A) Avg OCP (A) COUT_Bulk (µF) COUT_Ceramic (µF) ASCR Gain ASCR Residual Peak-to-Peak (mV) Frequency (kHz) 1.5 20 25 1*470 12*100 140 90 100 320 1.2 30 35 1*470 12*100 600 110 70 727 1.2 25 30 4*470 12*100 250 80 60 296 1 30 35 1*470 12*100 450 110 80 615 1 25 30 5*470 12*100 250 80 50 296 0.6 30 35 7*470 12*100 300 90 50 296 Notes: 8. 2x470µF (EEE-1EA471P) and 12x22µF (GRM32ER71E226KE15L) are used for all conditions in the evaluation board. 9. 100µF (GRM31CD80J107ME39L) ceramic and 470µF (6TPF470MAH) are selected for output capacitor in the evaluation board. 10. Peak-to-peak VOUT deviation is measured under 50%-100% load transient while 12V input applied. 11. ASCR gain and residual was designed to achieve 50° phase margin over temperature. (Ambient temperature from -40°C to +85°C). 12. Frequency is selected to achieve the highest efficiency at full load as well as avoid saturation of the inductor. For instance, select 615kHz instead of 296kHz if 1V, 26A is required to avoid inductor saturation. Although better efficiency is obtained at 296kHz supporting 1V, 25A, higher frequency can be selected because less output capacitance is required to meet the transient response specification. FN8931 Rev.1.00 Jan 4, 2018 Page 11 of 81 ISL8274M 2. 2. Specifications Specifications 2.1 Absolute Maximum Ratings Minimum Maximum Input Supply Voltage, VIN Pin Parameter -0.3 17 Unit V Input Supply Voltage for Controller, VDD Pin -0.3 17 V MOSFET Switch Node Voltage, SW1/2, SWD1/2 (Note 13) -0.3 25 V MOSFET Driver Supply Voltage, VDRV, VDRV1 Pin -0.3 6.0 V Output Voltage, VOUT1/2 Pin -0.3 6.0 V Internal Reference Supply Voltage VR6 Pin -0.3 6.6 V VR, VR5, VR55 Pin -0.3 6.5 V V25 Pin -0.3 3 V Logic I/O Voltage for DDC, EN1/2, PG1/2, ASCR1/2, SA/CFG, SCL, SDA, SALRT, SYNC/OCP, SS/TRACK, VMON, VSET1/2 -0.3 6.0 V Analog Input Voltages VSEN1P, VSEN2P, VTRKP -0.3 6.0 V VSEN1N, VSEN2N, VTRKN -0.3 0.3 V ESD Rating Human Body Model (Tested per JS-001-2014) Value Unit 2 kV Machine Model (Tested per JESD22-A115C) 200 V Charged Device Model (Tested per JS-002-2014) 750 V Latch-Up (Tested per JESD78E; Class 2, Level A) 100 mA Note: 13. Do not apply DC voltage higher than 17V to the pins. CAUTION: Do not operate at or near the maximum ratings listed for extended periods of time. Exposure to such conditions may adversely impact product reliability and result in failures not covered by warranty. 2.2 Thermal Information Thermal Resistance (Typical) 58 Ld HDA Package (Notes 14, 15) JA (°C/W) JC (°C/W) 5.3 1.1 Notes: 14. JA is defined by simulation in free air with the module mounted on an 8-layer evaluation board 4.7x4.8inch in size with 2oz Cu on all layers. 15. For JC, the “case temp” location is the center of the package underside. Parameter Minimum Maximum Junction Temperature (Plastic Package) Storage Temperature Range -55 Pb-Free Reflow Profile 2.3 Maximum Unit +125 °C +150 °C see Figure 33 Recommended Operation Conditions Minimum Maximum Unit Input Supply Voltage Range, VIN Parameter 4.5 14 V Input Supply Voltage Range for Controller, VDD 4.5 14 V Output Voltage Range, VOUT 0.6 5 V 0 30 A -40 +125 °C Output Current Range, IOUT(DC) Per Channel (Note 18) Operating Junction Temperature Range, TJ FN8931 Rev.1.00 Jan 4, 2018 Page 12 of 81 ISL8274M 2.4 2. Specifications Electrical Specifications VIN = VDD = 12V, TA = -40°C to +85°C, unless otherwise noted. Typical values are at TA = +25°C. Boldface limits apply across the operating temperature range, -40°C to +85°C. Parameter Symbol Test Conditions Min (Note 16) Typ Max (Note 16) Unit 40 50 mA 5.5 6.1 6.6 V 4.5 5.2 5.5 V 2.25 2.5 2.75 V Input and Supply Characteristics Input Supply Current for Controller IDD 6V Internal Reference Supply Voltage VR6 5V Internal Reference Supply VR5 2.5V Internal Reference Supply V25 Internal LDO Output Voltage VCC Internal LDO Output Current IVCC Input Supply Voltage for Controller Read Back Resolution VDD_READ_RES Input Supply Voltage for Controller Read Back Total Error (Note 19) VDD_READ_ERR VIN = VDD = 12V, VOUT = 0V, module not enabled IVR5 < 5mA 5.3 VIN = VDD = 12V, VCC connected to VDRV, module enabled V 50 PMBus Read mA ±20 mV ±2 % FS Output Characteristics Output Voltage Adjustment Range VOUT_RANGE 0.54 Output Voltage Set-Point Resolution VOUT_RES Configured using PMBus Output Voltage Set-Point Accuracy (Notes 17, 19) VOUT_ACCY Includes line, load, and temperature (-20°C ≤ TA ≤ +85°C) Output Voltage Read Back Resolution VOUT_READ_RES Output Voltage Read Back Total Error (Note 19) VOUT_READ_ERR Output Ripple Voltage Output Current Read Back Resolution 5.5 ±0.025 -1.2 %VOUT 1.2 ±0.15 PMBus read -2 V % % FS 2 % FS VOUT_RIPPLE VOUT = 1.5V, COUT = 1 x 470µF POSCAP + 12 x 100µF ceramic 1 % IOUT_READ_RES ISENSE_CONFIG default setting 0.2 A Output Current Range (Note 18) IOUT_RANGE Per channel 30 Output Current Read Back Total Error IOUT_READ_ERR PMBus read at max load VOUT = 1.5V tON_DELAY Configured using PMBus 2 Configured using PMBus 0.5 A ±3 A Soft-Start and Sequencing Delay Time from Enable to VOUT Rise tON_DELAY Accuracy tON_DELAY_ACCY Output Voltage Ramp-Up Time tON_RISE Output Voltage Ramp-Up Time Accuracy tON_RISE_ACCY Delay Time from Disable to VOUT Fall tOFF_DELAY Accuracy FN8931 Rev.1.00 Jan 4, 2018 tOFF_DELAY tOFF_DELAY_ACCY 300 ms 120 ms ±2 ms ±250 Configured using PMBus 2 µs 300 ±2 ms ms Page 13 of 81 ISL8274M 2. Specifications VIN = VDD = 12V, TA = -40°C to +85°C, unless otherwise noted. Typical values are at TA = +25°C. Boldface limits apply across the operating temperature range, -40°C to +85°C. (Continued) Parameter Symbol Output Voltage Fall Time tOFF_FALL Output Voltage Fall Time Accuracy tON_FALL_ACCY Test Conditions Configured using PMBus Min (Note 16) Typ 0.5 Max (Note 16) Unit 120 ms ±250 µs Power-Good Power-Good Delay VPG_DELAY Configured using PMBus 0 5000 ms Temperature Sense Temperature Sense Range TSENSE_RANGE Configurable using PMBus -50 150 C Internal Temperature Sensor Accuracy INT_TEMPACCY Tested at +100°C -5 5 C 4.18 16 V Fault Protection VDD Undervoltage Threshold Range VDD_UVLO_RANGE VDD Undervoltage Threshold Accuracy (Note 19) VDD_UVLO_ACCY ±2 %FS VDD Undervoltage Response Time VDD_UVLO_DELAY 10 µs VOUT Overvoltage Threshold Range VOUT_OV_RANGE VOUT Undervoltage Threshold Range VOUT_UV_RANGE Factory default Configured using PMBus VOUT_OV/UV_ACCY VOUT OV/UV Response Time VOUT_OV/UV_DELAY Output Current Limit Set-Point Accuracy (Note 19) ILIMIT_ACCY Over-temperature Protection Threshold (Controller Junction Temperature) TJUNCTION 1.15VOUT 1.05VOUT Factory default Configured using PMBus VOUT OV/UV Threshold Accuracy (Note 17) Thermal Protection Hysteresis Measured internally 0.85VOUT V V 0 0.95VOUT V -2 2 % Tested at IOUT_AVG_OC_FAULT_LIMIT = 35A Factory default Configured using PMBus V VOUT_MAX 10 µs ±10 % FS C 115 -40 115 C 15 TJUNCTION_HYS C Oscillator and Switching Characteristics Switching Frequency Range fSW_RANGE 296 1067 kHz Switching Frequency Set-Point Accuracy fSW_ACCY -5 5 % Minimum Pulse Width Required from External SYNC Clock EXT_SYNCPW Drift Tolerance for External SYNC Clock FN8931 Rev.1.00 Jan 4, 2018 EXT_SYNCDRIFT Measured at 50% amplitude 150 External SYNC clock equal to 500kHz is not supported -10 ns 10 % Page 14 of 81 ISL8274M 2. Specifications VIN = VDD = 12V, TA = -40°C to +85°C, unless otherwise noted. Typical values are at TA = +25°C. Boldface limits apply across the operating temperature range, -40°C to +85°C. (Continued) Parameter Symbol Test Conditions ILOGIC_BIAS DDC, EN1/2, PG1/2, SA/CFG, SCL, SDA, ASCR1/2, SS/TRACK, SALRT, SYNC/OCP, VMON, VSET1/2 Min (Note 16) Typ Max (Note 16) Unit +100 nA 0.8 V Logic Input/Output Characteristics Bias Current at the Logic Input Pins Logic Input Low Threshold Voltage VLOGIC_IN_LOW Logic Input High Threshold Voltage VLOGIC_IN_HIGH Logic Output Low Threshold Voltage VLOGIC_OUT_LOW 2mA sinking Logic Output High Threshold Voltage VLOGIC_OUT_HIGH 2mA sourcing -100 2.0 V 0.5 2.25 V V PMBus Interface Timing Characteristic PMBus Operating Frequency fSMB 100 400 kHz Notes: 16. Compliance to datasheet limits is assured by one or more methods: Production test, characterization, and/or design. Controller is independently tested before module assembly. 17. VOUT measured at the termination of the VSEN1/2P and VSEN1/2N sense points. 18. The MAX load current is determined by the thermal “Derating Curves” on page 20. 19. “FS” stands for full scale of recommended maximum operation range. FN8931 Rev.1.00 Jan 4, 2018 Page 15 of 81 ISL8274M 3. 3. Typical Performance Curves Typical Performance Curves 3.1 Efficiency Performance Operating condition: TA = +25°C, no air flow. COUT = 1 x 470µF POSCAP + 12 x 100µF Ceramic. Typical values are used unless otherwise noted. The efficiency curves were measured on the evaluation board. For test conditions, refer to Table 2 on page 10. 95 95 12VIN 90 90 85 85 Efficiency (%) Efficiency (%) 12VIN 80 75 70 0.6V_296kHz 1V_615kHz 1.2V_727kHz 1.5V_889kHz 1.8V_889kHz 2.5V_1067kHz 80 75 70 1V_296kHz 1.2V_296kHz 1.5V_421kHz 1.8V_421kHz 2.5V_615kHz 3.3V_800kHz 5V_1067kHz 65 65 0 5 10 15 20 25 0 30 5 10 Figure 5. Single Channel Efficiency vs Output Current 25 95 5VIN 12VIN 95 90 90 Efficiency (%) Efficiency (%) 20 Figure 6. Single Channel Efficiency vs Output Current 100 85 80 75 1.5V_320kHz 85 80 75 1.8V_364kHz 2.5V_471kHz 70 3.3V_571kHz 70 5V_615kHz 0.6V_296kHz 1V_615kHz 1.2V_727kHz 1.5V_889kHz 1.8V_889kHz 2.5V_1067kHz 65 65 0 5 10 15 0 20 5 10 15 20 25 30 Load Current (A) Load Current (A) Figure 7. Single Channel Efficiency vs Output Current Figure 8. Single Channel Efficiency vs Output Current 95 100 5VIN 5VIN 95 90 85 Efficiency (%) Efficiency (%) 15 Load Current (A) Load Current (A) 80 75 70 1V_296kHz 1.2V_296kHz 1.5V_421kHz 1.8V_421kHz 2.5V_615kHz 3.3V_800kHz 90 85 80 75 1.5V_320kHz 1.8V_364kHz 70 2.5V_471kHz 3.3V_571kHz 65 65 0 5 10 15 20 25 Load Current (A) Figure 9. Single Channel Efficiency vs Output Current FN8931 Rev.1.00 Jan 4, 2018 0 5 10 15 20 Load Current (A) Figure 10. Single Channel Efficiency vs Output Current Page 16 of 81 ISL8274M 3.2 3. Typical Performance Curves Startup and Shutdown Operating condition: TA = +25°C, no air flow. COUT = 1 x 470µF POSCAP + 12 x 100µF Ceramic. Typical values are used unless otherwise noted. SW (10V/Div) SW (10V/Div) IOUT (20A/Div) IOUT (20A/Div) VOUT (750mV/Div) VOUT (750mV/Div) PG (5V/Div) PG (5V/Div) 2ms/Div 2ms/Div Figure 11. Single Channel Startup 12VIN, 1.5VOUT, 30A Figure 12. Single Channel Startup 12VIN, 1.5VOUT, 0A SW (10V/Div) SW (10V/Div) IOUT (20A/Div) IOUT (20A/Div) VOUT (750mV/Div) VOUT (750mV/Div) PG (5V/Div) PG (5V/Div) 100µs/Div 1s/Div Figure 13. Single Channel Shutdown 12VIN, 1.5VOUT, 30A Figure 14. Single Channel Shutdown 12VIN, 1.5VOUT, 0A FN8931 Rev.1.00 Jan 4, 2018 Page 17 of 81 ISL8274M 3.3 3. Typical Performance Curves Derating Curves All of the following curves were plotted at TJ = +125°C. The derating curves were measured on the evaluation board. For test conditions, refer to Table 2 on page 10. Load current is applied per channel, two channels are operating at the same time. 35 35 fSW = 615kHz 30 Load Current (A) Load Current (A) 25 20 15 0LFM 10 200LFM 25 20 15 0LFM 10 200LFM 400LFM 5 fSW = 615kHz 30 5 400LFM 0 0 25 45 65 85 105 25 125 45 65 85 30 30 fSW = 296kHz fSW = 296kHz 25 25 Load Current (A) Load Current (A) 125 Figure 16. 5VIN to 1VOUT Figure 15. 12VIN to 1VOUT 20 15 10 0LFM 200LFM 5 20 15 10 0LFM 200LFM 5 400LFM 400LFM 0 0 25 45 65 85 105 125 25 45 Ambient Temperature (oC) 65 85 105 125 Ambient Temperature (oC) Figure 18. 5VIN to 1VOUT Figure 17. 12VIN to 1VOUT 35 35 fSW = 889kHz fSW = 889kHz 30 30 25 Load Current (A) Load Current (A) 105 Ambient Temperature (oC) Ambient Temperature (oC) 20 15 10 0LFM 20 15 0LFM 10 200LFM 200LFM 5 25 5 400LFM 400LFM 0 0 25 45 65 85 Ambient Temperature (oC) Figure 19. 12VIN to 1.5VOUT FN8931 Rev.1.00 Jan 4, 2018 105 125 25 45 65 85 105 125 Ambient Temperature (oC) Figure 20. 5VIN to 1.5VOUT Page 18 of 81 ISL8274M 3. Typical Performance Curves All of the following curves were plotted at TJ = +125°C. The derating curves were measured on the evaluation board. For test conditions, refer to Table 2 on page 10. Load current is applied per channel, two channels are operating at the same time. (Continued) 30 35 30 25 Load Current (A) Load Current (A) fSW = 889kHz fSW = 1067kHz 25 20 15 10 0LFM 200LFM 5 20 15 10 0LFM 200LFM 5 400LFM 400LFM 0 0 25 45 65 85 105 125 25 45 65 85 105 125 Ambient Temperature (oC) Ambient Temperature (oC) Figure 21. 12VIN to 2.5VOUT Figure 22. 5VIN to 2.5VOUT 30 fSW = 1067kHz Load Current (A) 25 20 15 10 0LFM 200LFM 5 400LFM 0 25 45 65 85 105 125 Ambient Temperature (oC) Figure 23. 12VIN to 5VOUT FN8931 Rev.1.00 Jan 4, 2018 Page 19 of 81 ISL8274M 3.4 3. Typical Performance Curves Transient Response Performance Operating condition: TA = +25°C, no air flow. Refer to Table 2 on page 10 for output capacitor and ASCR settings. Typical values are used unless otherwise noted. IOUT (5A/Div) IOUT (5A/Div) VOUT (50mV/Div) VOUT (50mV/Div) 50µs/Div Figure 24. 0A-15A, >10A/µs, 12VIN,1VOUT, 615kHz 50µs/Div Figure 25. 0A-15A, >10A/µs, 12VIN,1.5VOUT, 889kHz IOUT (5A/Div) IOUT (5A/Div) VOUT (50mV/Div) VOUT (50mV/Div) 50µs/Div 50µs/Div Figure 26. 0A-15A, >10A/µs, 12VIN,1.8VOUT, 889kHz Figure 27. 0A-15A, >10A/µs, 12VIN, 2.5VOUT, 1067kHz IOUT (5A/Div) IOUT (5A/Div) VOUT (50mV/Div) VOUT (50mV/Div) 50µs/Div 50µs/Div Figure 28. 0A-12.5A, >10A/µs, 12VIN, 3.3VOUT, 800kHz Figure 29. 0A-12.5A, >10A/µs, 12VIN, 5VOUT, 1067kHz FN8931 Rev.1.00 Jan 4, 2018 Page 20 of 81 ISL8274M 4. 4. Functional Description Functional Description 4.1 SMBus Communications The ISL8274M provides a PMBus digital interface that enables the user to configure all aspects of the module operation as well as monitor the input and output parameters. The ISL8274M can be used with any SMBus host device. In addition, the module is compatible with PMBus Power System Management Protocol Specification Parts I and II version 1.2. The ISL8274M accepts most standard PMBus commands. When configuring the device using PMBus commands, it is recommended that the enable pin is tied to SGND. The SMBus device address is the only parameter that must be set by the external pins. All other device parameters can be set using PMBus commands. The ISL8274M can operate without the PMBus in pin-strap mode with configurations programmed by pin-strap resistors, such as output voltage, ASCR setting, switching frequency, OCP limit, device SMBus address, input UVLO, soft-start/stop, and tracking. 4.2 Output Voltage Selection The output voltages of both channels may be set to a voltage between 0.6V and 5V if the input voltage is higher than the desired output voltage by an amount sufficient to maintain regulation. The VSET1/2 pins are used to set the output voltage VOUT1/2 to levels as shown in Table 3. The RSET1/2 resistor is placed between the VSET1/2 pins and SGND. A standard 1% resistor is required. Table 3. Output Voltage Resistor Settings FN8931 Rev.1.00 Jan 4, 2018 VOUT1/2 (V) RSET1/2 (kΩ) 1 LOW 1.5 OPEN 3.3 HIGH 0.6 10 0.675 11 0.7 12.1 0.72 13.3 0.75 14.7 0.8 16.2 0.85 17.8 0.9 19.6 0.93 21.5 0.95 23.7 0.98 26.1 1.03 28.7 1.05 31.6 1.1 34.8 1.12 38.3 1.15 42.2 1.2 46.4 1.25 51.1 1.3 56.2 1.35 61.9 Page 21 of 81 ISL8274M 4. Functional Description Table 3. Output Voltage Resistor Settings (Continued) VOUT1/2 (V) RSET1/2 (kΩ) 1.4 68.1 1.65 75 1.8 82.5 1.85 90.9 2 100 2.4 110 2.5 121 2.8 133 3 147 3.6 162 5 178 The output voltage may also be set to any value between 0.6V and 5V using the PMBus command VOUT_COMMAND. This device supports dynamic voltage scaling by allowing change to the output voltage set point during regulation. The voltage transition rate is specified by the PMBus command VOUT_TRANSITION_RATE. By default, VOUT_MAX is set to 110% of VOUT set by the pin-strap resistor, which can be changed to any value up to 5.5V by the PMBus Command VOUT_MAX. 4.3 Soft-Start, Stop Delay, and Ramp Times The ISL8274M follows an internal start-up procedure after power is applied to the VDD pin. The module requires approximately 60ms to 70ms to check for specific values stored in its internal memory and programmed by pin-strap resistors. Once this process is completed, the device is ready to accept commands through the PMBus interface and the module is ready to be enabled. If the module is to be synchronized to an external clock source, the clock frequency must be stable before asserting the EN pin. It may be necessary to set a delay from when an enable signal is received until the output voltage starts to ramp to its target value. In addition, the designer may wish to precisely set the time required for VOUT to ramp to its target value after the delay period has expired. These features can be used as part of an overall inrush current management strategy or to precisely control how fast a load IC is turned on. The ISL8274M gives the system designer several options for precisely and independently controlling both the delay and ramp time periods. The soft-start delay period begins when the EN pin is asserted and ends when the delay time expires. The soft-start delay and ramp-up time can be programmed to custom values using the PMBus commands TON_DELAY and TON_RISE. When the delay time is set to 0ms, the device begins its ramp-up after the internal circuitry has initialized (approximately 2ms). When the soft-start ramp period is set to 0ms, the output ramps up as quickly as the output load capacitance and loop settings allow. It is generally recommended to set the soft-start ramp to a value greater than 2ms to prevent inadvertent fault conditions due to excessive inrush current. Similar to the soft-start delay and ramp-up time, the delay and ramp down time for soft-stop/off can be programmed using the PMBus commands TOFF_DELAY and TOFF_FALL. In addition, the module can be configured as “immediate off” using the command ON_OFF_CONFIG, so that the internal MOSFETs are turned off immediately after the delay time expires. The SS/TRACK pin can be used to program the soft-start/stop delay time and ramp time to some typical values as well as enable/disable the tracking function shown in Table 4 on page 23. FN8931 Rev.1.00 Jan 4, 2018 Page 22 of 81 ISL8274M 4. Functional Description Table 4. Soft-Start/Stop and Tracking Resistor Settings TON_DELAY TOFF_DELAY (ms) TON_RISE TOFF_FALL (ms) Tracking Ch1 Ch2 Ch1 Ch2 Ch1 Ch2 R (kΩ) 5 5 2 2 No No LOW 5 5 2 5 No No OPEN 5 5 5 2 No No HIGH 5 5 5 5 No No 10 5 10 2 2 No No 11 5 10 2 5 No No 12.1 5 10 5 2 No No 13.3 5 10 5 5 No No 14.7 10 5 2 2 No No 16.2 10 5 2 5 No No 17.8 10 5 5 2 No No 19.6 10 5 5 5 No No 21.5 20 5 2 2 No No 23.7 20 5 5 5 No No 26.1 5 20 2 2 No No 28.7 5 20 2 5 No No 31.6 5 20 5 2 No No 34.8 5 20 5 5 No No 38.3 5 N/A 2 N/A No Track 100% 42.2 5 N/A 2 N/A No Track 50% 46.4 5 N/A 5 N/A No Track 100% 51.1 5 N/A 5 N/A No Track 50% 56.2 10 N/A 2 N/A No Track 100% 61.9 10 N/A 2 N/A No Track 50% 68.1 10 N/A 5 N/A No Track 100% 75 10 N/A 5 N/A No Track 50% 82.5 N/A 5 N/A 2 Track 100% No 90.9 N/A 5 N/A 2 Track 50% No 100 N/A 5 N/A 5 Track 100% No 110 N/A 5 N/A 5 Track 50% No 121 N/A 10 N/A 2 Track 100% No 133 N/A 10 N/A 2 Track 50% No 147 N/A 10 N/A 5 Track 100% No 162 N/A 10 N/A 5 Track 50% No 178 FN8931 Rev.1.00 Jan 4, 2018 Page 23 of 81 ISL8274M 4.4 4. Functional Description Voltage Tracking Numerous high performance systems place stringent demands on the order in which the power supply voltages are turned on. This is particularly true when powering FPGAs, ASICs, and other advanced processor devices that require multiple supply voltages to power a single die. In most cases, the I/O interface operates at a higher voltage than the core and therefore, the core supply voltage must not exceed the I/O supply voltage according to the manufacturers' specifications. The ISL8274M integrates a tracking scheme that allows one of its outputs (Channel 1 or Channel 2) to track a voltage that is applied to the VTRKP and VTRKN pins with no external components required. The VTRKP and VTRKN pins are analog inputs that, when the tracking mode is enabled, configure the voltage applied to the VTRKP and VTRKN pins to act as a reference for the device's output regulation. Figure 30 illustrates the typical connection and the two tracking modes: • Coincident - This mode configures the ISL8274M to ramp its output voltage at the same rate as the voltage applied to the VTRK pin until it reaches its desired output voltage. The device that is tracking another output voltage (slave) must be set to its desired steady-state output voltage. • Ratio-metric - This mode configures the ISL8274M to ramp its output voltage at a rate that is a percentage of the voltage applied to the VTRKP and VTRKN pins. The default setting is 50%, but an external resistor string can be used to configure a different tracking ratio. The device that is tracking another output voltage (slave) must be set to its desired steady-state output voltage. VIN VTRKN VTRKP ISL8274M Q1 L1 Q2 Vo2 C1 Vo1 VOUT Vo1 Vo2 TIME COINCIDENT V OUT Vo1 Vo2 TIME RATIOMETRIC Figure 30. Tracking Modes FN8931 Rev.1.00 Jan 4, 2018 Page 24 of 81 ISL8274M 4. Functional Description The master ISL8274M device in a tracking group is defined as the device that has the highest target output voltage within the group. This master device will control the ramp rate of all tracking devices and is not configured for tracking mode. The maximum tracking rise time is 1V/ms. The slave device must be enabled before the master. Any device that is configured for tracking mode will ignore its TON_DELAY and TON_RISE settings and its output will take on the turn-on/turn-off characteristics of the reference voltage present at the VTRKP and VTRKN pins. Tracking mode can be configured by using the TRACK_CONFIG command. The VOUT_COMMAND needs to be set the same as the target tracking voltage when tracking is enabled. For example, the VOUT_COMMAND of the Page1 (VOUT2 which enables the tracking) needs to set to 1V if tracking 100% is selected and a ramp of 1V is applied to VTRKP and VTRKN. The VOUT_COMMAND of Page 1 (VOUT2 which enables the tracking) needs to set to 1V if tracking 50% is selected and a ramp of 2V is applied to VTRKP and VTRKN. In Tracking mode, the minimum voltage that can be tracked is ~200mV. 4.5 Power-Good The ISL8274M provides a Power-Good (PG) signal that indicates the output voltage is within a specified tolerance of its target level and no fault condition exists. By default, the PG pin asserts if the output is within 10% of the target voltage. This limit may be changed using the PMBus command POWER_GOOD_ON. A PG delay period is defined as the time from when all conditions within the ISL8274M for asserting PG are met to when the PG pin is actually asserted. This feature is commonly used instead of using an external reset controller to control external digital logic. A PG delay can be programmed using the PMBus command POWER_GOOD_DELAY. 4.6 Switching Frequency and PLL The device’s switching frequency is set from 296kHz to 1067kHz using the pin-strap method (combined with the average OCP limit setting) as shown in Table 5, or by using the PMBus command FREQUENCY_SWITCH. The ISL8274M incorporates an internal Phase-Locked Loop (PLL) to clock the internal circuitry. The PLL can be driven by an external clock source connected to the SYNC pin. It is recommended that when using an external clock, the same frequency should be set in the FREQUENCY_SWITCH command. If the external clock is lost, the module will automatically switch to the internal clock. When using the internal oscillator, the SYNC pin can be configured as a clock source and as an external sync to other modules. Refer to “SYNC_CONFIG (E9h)” on page 67 for more information. Table 5. Switching Frequency and OCP Limit Resistor Setting SYNC/OCP OCP Avg R (kΩ) Fsw (KHz) Ch1 (A) Ch2 (A) LOW 296 35 35 OPEN 889 35 35 HIGH 1067 35 35 10 296 30 35 11 296 30 30 12.1 296 25 35 13.3 296 25 30 14.7 296 25 25 16.2 320 25 35 17.8 320 25 30 19.6 320 25 25 21.5 320 20 30 23.7 320 20 25 26.1 364 25 35 FN8931 Rev.1.00 Jan 4, 2018 Page 25 of 81 ISL8274M 4. Functional Description Table 5. Switching Frequency and OCP Limit Resistor Setting (Continued) SYNC/OCP OCP Avg R (kΩ) Fsw (KHz) Ch1 (A) Ch2 (A) 28.7 364 25 30 31.6 364 20 30 34.8 421 30 35 38.3 421 30 30 42.2 471 25 35 46.4 471 25 30 51.1 471 20 35 56.2 571 25 35 61.9 571 25 30 68.1 571 20 35 75 571 20 30 82.5 615 35 35 90.9 615 35 30 100 615 30 30 110 615 25 35 121 615 25 30 133 615 25 25 147 727 35 35 162 800 30 35 178 800 30 30 FN8931 Rev.1.00 Jan 4, 2018 Page 26 of 81 ISL8274M 4.7 4. Functional Description Output Overcurrent Protection The ISL8274M is protected from damage if the output is shorted to ground or if an overload condition is imposed on the output. Average output overcurrent fault threshold can be programmed by the PMBus command IOUT_AVG_OC_FAULT_LIMIT while the peak output overcurrent fault threshold can be programmed by the PMBus command IOUT_OC_FAULT_LIMIT. The default response from an average overcurrent fault is an immediate shutdown without retry. A continuous retry can be enabled using the PMBus command MFR_IOUT_OC_FAULT_RESPONSE. A hard bound of 50A is applied to the peak overcurrent limit. The average OCP limit can be set by the SYNC/OCP pin strap as well. Refer to Table 5 on page 25 for more information. 4.8 Loop Compensation The module loop response is programmable through the PMBus command ASCR_CONFIG or by using the pin-strap method (ASCR1/2 pins) according to Table 6. The ISL8274M uses the ChargeMode control algorithm that responds to the output current changes within a single PWM switching cycle, achieving a smaller total output voltage variation with less output capacitance than traditional PWM controllers. Table 6. ASCR Resistor Setting ASCR Gain ASCR Residual R (kΩ) 350 110 LOW 525 90 OPEN 475 80 HIGH 100 90 10 100 100 11 120 90 12.1 120 100 13.3 140 90 14.7 140 100 16.2 140 110 17.8 150 90 19.6 150 100 21.5 160 70 23.7 160 90 26.1 175 80 28.7 175 90 31.6 200 90 34.8 200 100 38.3 200 110 42.2 225 80 46.4 225 90 51.1 250 80 56.2 250 100 61.9 275 90 68.1 275 100 75 300 70 82.5 300 90 90.9 FN8931 Rev.1.00 Jan 4, 2018 Page 27 of 81 ISL8274M 4. Functional Description Table 6. ASCR Resistor Setting (Continued) 4.9 ASCR Gain ASCR Residual R (kΩ) 350 100 100 450 100 110 450 110 121 500 70 133 500 90 147 600 100 162 600 110 178 SMBus Module Address Selection Each module must have its own unique serial address to distinguish between other devices on the bus. The module address is set by connecting a resistor between pins SA/CFG and SGND. The SA/CFG pin also defines the input undervoltage lockout limit. The input Undervoltge Lockout (UVLO) prevents the ISL8274M from operating when the input falls below a preset threshold, indicating the input supply is out of its specified range. The UVLO threshold (VUVLO) can be set between 4.18V and 16V by using the PMBus command VIN_UV_FAULT_LIMIT. Table 7 lists the available module addresses. A fault response to an input undervoltage fault can be programmed by the PMBus command VIN_UV_FAULT_RESPONSE. If the input undervoltage fault retry is enabled, the module will shut down immediately once the input voltage falls below VUVLO and then continuously checks the input voltage after a retry delay time, which can be configured from 35ms to 280ms. If the input voltage rises above the input undervoltage warning level, the module will restart. The input undervoltage warning is 1.05*VUVLO by default and can be programmed by the PMBus command VIN_UV_WARN_LIMIT. Table 7. SMBus Address and UVLO Resistor Setting FN8931 Rev.1.00 Jan 4, 2018 PMBus Address UVLO (V) R (kΩ) 26h 4.5 LOW 28h 4.5 OPEN 19h 10.8 10 1Ah 4.5 11 1Bh 10.8 12.1 1Ch 4.5 13.3 1Dh 10.8 14.7 1Eh 4.5 16.2 1Fh 10.8 17.8 20h 4.5 19.6 21h 10.8 21.5 22h 4.5 23.7 23h 10.8 26.1 24h 4.5 28.7 25h 10.8 31.6 26h 4.5 34.8 27h 10.8 38.3 28h 4.5 42.2 29h 10.8 46.4 Page 28 of 81 ISL8274M 4. Functional Description Table 7. SMBus Address and UVLO Resistor Setting (Continued) 4.10 PMBus Address UVLO (V) R (kΩ) 2Ah 4.5 51.1 2Bh 10.8 56.2 2Ch 4.5 61.9 2Dh 10.8 68.1 2Eh 4.5 75 2Fh 10.8 82.5 30h 4.5 90.9 31h 10.8 100 32h 4.5 110 33h 10.8 121 Output Overvoltage Protection The ISL8274M offers an internal output overvoltage protection circuit that can be used to protect sensitive load circuitry from being subjected to a voltage higher than its prescribed limits. A hardware comparator compares the actual output voltage (seen at pins VSEN1/2P, VSEN1/2N) to a threshold set to 15% higher than the target output voltage (default setting). The fault threshold can be programmed to a desired level by the PMBus command VOUT_OV_FAULT_LIMIT. If the VSEN1/2P, VSEN1/2N voltage exceeds this threshold, the module will initiate an immediate shutdown without retry. Continuous retry can be enabled using the PMBus command VOUT_OV_FAULT_RESPONSE. The retry delay time can be configured from 35ms to 280ms. Internal to the module, two 100Ω resistors are populated from VOUT to VSEN1/2P and SGND to VSEN1/2N to protect the module from overvoltage conditions in case of open at the voltage sensing pins and differential remote sense traces due to assembly error. As long as differential remote sense traces have low resistance, VOUT regulation accuracy is not compromised. 4.11 Output Prebias Protection An output prebias condition exists when an externally applied voltage is present on a power supply’s output before the power supply’s control IC is enabled. Certain applications require that the converter not be allowed to sink current during start-up if a prebias condition exists at the output. The ISL8274M provides prebias protection by sampling the output voltage before initiating an output ramp. If a prebias voltage lower than the target voltage exists after the preconfigured delay period has expired, the target voltage is set to match the existing prebias voltage and both drivers are enabled. The output voltage is then ramped to the final regulation value at the preconfigured ramp rate. The actual time the output takes to ramp from the prebias voltage to the target voltage varies, depending on the prebias voltage. However, the total time elapsed from when the delay period expires to when the output reaches its target value will match the preconfigured ramp time (see Figure 31 on page 30). FN8931 Rev.1.00 Jan 4, 2018 Page 29 of 81 ISL8274M 4. Functional Description VOUT DESIRED OUTPUT VOLTAGE PREBIAS VOLTAGE TIME TONDELAY TONRISE VPREBIAS < VTARGET VOUT PREBIAS VOLTAGE DESIRED OUTPUT VOLTAGE TIME TONDELAY TONRISE VPREBIAS > VTARGET Figure 31. Output Responses to Prebias Voltages If a prebias voltage is higher than the target voltage after the preconfigured delay period has expired, the target voltage is set to match the existing prebias voltage. Thus, both drivers are enabled with a PWM duty cycle that would ideally create the prebias voltage. Once the preconfigured soft-start ramp period has expired, the PG pin is asserted (assuming the prebias voltage is not higher than the overvoltage limit). The PWM then adjusts its duty cycle to match the original target voltage and the output ramps down to the preconfigured output voltage. If a prebias voltage is higher than the overvoltage limit, the device does not initiate a turn-on sequence and declares an overvoltage fault condition. The device then responds based on the output overvoltage fault response setting programmed by the PMBus command VOUT_OV_FAULT_RESPONSE. 4.12 Thermal Overload Protection The ISL8274M includes a thermal sensor that continuously measures the internal temperature of the module and shuts down the controller when the temperature exceeds the preset limit. The factory default temperature limit is set to +115°C, and can be changed using the PMBus command OT_FAULT_LIMIT. Note that the temperature reading from the PMBus command is the temperature of the internal controller, which is lower than the junction temperature of the module. The default response from an over-temperature fault is an immediate shutdown without retry. Retry settings can be programmed using the PMBus command OT_FAULT_RESPONSE. Hysteresis is implemented with the over-temperature fault retry. If a retry is enabled, the module will shut down immediately upon an over-temperature fault event and then continuously check the temperature after a retry delay time, which can be configured from 35ms to 280ms. If the temperature falls below the over-temperature warning level, the module will restart. The over-temperature warning is +105°C by default and programmable using the PMBus command OT_WARN_LIMIT. FN8931 Rev.1.00 Jan 4, 2018 Page 30 of 81 ISL8274M 4.13 4. Functional Description Digital-DC Bus The Digital-DC Communications (DDC) bus is used to communicate between the Renesas digital power modules and digital controllers. The DDC bus provides the communication channel between devices for features such as current sharing, sequencing and fault spreading. The DDC pin on all Digital-DC devices in an application should be connected together. A pull-up resistor is required on the DDC bus in order to guarantee the rise time as shown in (EQ. 1): (EQ. 1) Rise Time = R PU  C LOAD  1s where RPU is the DDC bus pull-up resistance and CLOAD is the bus loading. The pull-up resistor may be tied to an external 3.3V or 5V supply as long as this voltage is present before or during the device power-up. In principle, each device connected to the DDC bus represents approximately 10pF of capacitive loading, and each inch of FR4 PCB trace introduces approximately 2pF. The ideal design uses a central pull-up resistor that is well-matched to the total load capacitance. 4.14 Phase Spreading When multiple point-of-load converters share a common DC input supply, it is desirable to adjust the clock phase offset of each device, such that not all devices start to switch simultaneously. Setting each converter to start its switching cycle at a different point in time can dramatically reduce input capacitance requirements and efficiency losses. Because the peak current drawn from the input supply is effectively spread out over a period of time, the peak current drawn at any given moment is reduced, and the power losses proportional to the IRMS2 are reduced dramatically. To enable phase spreading, all converters must be synchronized to the same switching clock. The phase offset of each device may also be set to any value between 0° and 360° in 22.5° increments with the PMBus command INTERLEAVE. The internal two phases of the module always maintain a phase difference of 180°. 4.15 Fault Spreading Digital-DC modules and devices can be configured to broadcast a fault event over the DDC bus to the other devices in the group using the PMBus command DDC_GROUP. When a nondestructive fault occurs, the device shuts down and broadcasts the fault event over the DDC bus. The other devices on the DDC bus shut down simultaneously, if configured to do so. Note that fault retry is not supported in multiple modules with fault spreading enabled. 4.16 Output Sequencing A group of Digital-DC modules or devices can be configured to power up in a predetermined sequence. This feature is especially useful when powering advanced processors (FPGAs and ASICs) that require one supply to reach its operating voltage before another supply reaching it in order to avoid latch-up. Multidevice sequencing can be achieved by configuring each device with the PMBus command SEQUENCE. Multiple device sequencing is configured by issuing PMBus commands to assign the preceding device in the sequencing chain as well as the device that follows the sequence. The Enable pins of all devices in a sequencing group must be tied together and driven high to initiate a sequenced turn-on of the group. The enable must be driven low to initiate a sequenced turnoff of the group. It is recommended to enable fault spreading with the PMBus command DDC_GROUP within a sequencing group. FN8931 Rev.1.00 Jan 4, 2018 Page 31 of 81 ISL8274M 4.17 4. Functional Description Monitoring Using SMBus The ISL8274M can monitor a wide variety of different system parameters using the PMBus commands: • READ_VIN • READ_VOUT • READ_IOUT • READ_INTERNAL_TEMP • READ_DUTY_CYCLE • READ_FREQEUNCY • READ_VMON 4.18 Snapshot Parameter Capture The ISL8274M offers a special feature to capture parametric data and fault status following a fault. A detailed description is provided in the “PMBus Commands Description” on page 42 under PMBus the commands SNAPSHOT and SNAPSHOT_CONTROL. 4.19 Nonvolatile Memory The ISL8274M stores user configurations in internal nonvolatile memory. Integrated security measures ensure that the user can only restore the module to a level that has been made available to them. During the initialization process, the ISL8274M checks for stored values contained in its internal nonvolatile memory. Modules are shipped with factory defaults configuration and most settings can be overwritten by PMBus commands and can be stored in nonvolatile memory by the PMBus command STORE_USER_ALL. FN8931 Rev.1.00 Jan 4, 2018 Page 32 of 81 ISL8274M 5. 5. Layout Guide Layout Guide To achieve stable operation, low losses, and good thermal performance, some layout considerations are necessary (Figure 32). Refer to the ISL8274MEVAL1Z layout design. • Establish separate SGND plane and PGND planes, then connect SGND to PGND plane on a middle layer and underneath PAD6 with a single point connection. For SGND and PGND pin connections, such as small pins H16, J16, M5 and M17..., use multiple vias for each pin to connect to inner SGND or PGND layers. • Place enough ceramic capacitors between VIN and PGND, VOUT and PGND and bypass capacitors between VDD, VDRV and the ground plane, as close to the module as possible to minimize high frequency noise. It is very critical to place the output ceramic capacitors close to the VOUT pads and in the direction of the load current path in order to create a low impedance path for the high frequency inductor ripple current. • Use large copper areas for power paths (VIN, PGND, VOUT) to minimize conduction loss and thermal stress. Also, use multiple vias to connect the power planes in different layers. It is recommended to enlarge PAD11 and PAD9 to place more vias on them. The ceramic capacitors CIN can be placed on the bottom layer under these two pads. • Connect remote sensing traces to the regulation point to achieve a tight output voltage regulation and place the two traces in parallel. Route a trace from VSEN1/2N and VSEN1/2P to the point of load where the tight output voltage is desired. Avoid routing any sensitive signal traces, such as the VSENN, VSENP sensing lines near the SW pins. • PAD14 and 16 (SW1 and SW2) are noisy pads, but they are beneficial for thermal dissipation. If the noise issue is critical for the applications, it is recommended to use only the top layer for the SW pads. For better thermal performance, use multiple vias on these pads to connect into the SW inner and bottom layers. However, use caution when placing a limited area of SW planes in any layer. The SW planes should avoid the sensing signals and should be surrounded by the PGND layer to avoid noise coupling. • For pins SWD1 (L3) and SWD2 (P10), it is recommended to connect to the related SW1 and SW2 pads with short loop traces. The trace width should be more than 20 mils. VOUT1 COUT1 PGND COUT2 SGND PGND VOUT2 PGND VSEN1N VSEN1P Kelvin Connections for Both Ch1 and Ch2 VIN VIN CIN CIN PGND Figure 32. Recommended Layout FN8931 Rev.1.00 Jan 4, 2018 Page 33 of 81 ISL8274M 5.1 5. Layout Guide Thermal Considerations Experimental power loss curves along with θJA from thermal modeling analysis can be used to evaluate the thermal consideration for the module. The derating curves are derived from the maximum power allowed while maintaining the temperature below the maximum junction temperature of +125°C. The derating curves are derived based on tests of the ISL8274MEVAL1Z evaluation board, which is an 8-layer board 4.5x4inch in size with 2oz Cu on the top and bottom layers, 1oz Cu on the inner layers, and multiple via interconnects. In the actual application, other heat sources and design margins should be considered. 5.2 Package Description The structure of the ISL8274M belongs to the High Density Array (HDA) no-lead package. This kind of package has advantages, such as good thermal and electrical conductivity, low weight, and small size. The HDA package is applicable for surface mounting technology and is being more readily used in the industry. The ISL8274M contains several types of devices, including resistors, capacitors, inductors, and control ICs. The ISL8274M is a copper leadframe based package with exposed copper thermal pads, which have good electrical and thermal conductivity. The copper leadframe and multicomponent assembly is overmolded with a polymer mold compound to protect these devices. The package outline and typical PCB layout pattern design and typical stencil pattern design are shown on pages 73 through page 79. The module has a small size of 18mmx 23mmx7.5mm. 5.3 PCB Layout Pattern Design The bottom of ISL8274M is a leadframe footprint, which is attached to the PCB by the surface mounting process. The PCB layout pattern is shown on pages 77 through 79. The PCB layout pattern is an array of solder mask defined PCB lands which align with the perimeters of the HDA exposed pads and I/O termination dimensions. The thermal lands on the PCB layout also feature an array of solder mask defined lands and should match 1:1 with the package exposed die pads. 5.4 Thermal Vias A grid of 1.0mm to 1.2mm pitch thermal vias, which drops down and connects to buried copper plane(s), should be placed under the thermal land. The vias should be about 0.3mm to 0.33mm in diameter with the barrel plated to about 1.0 oz. of copper. Although adding more vias (by decreasing via pitch) will improve the thermal performance, diminishing returns will be seen as the number of vias is increased. Simply use as many vias as practical for the thermal land size and your board design rules will allow. All vias should be capped and filled to avoid scavenging solder from the I/O solder joints and creating voids. 5.5 Stencil Pattern Design Reflowed solder joints on the perimeter I/O lands should have about a 50µm to 75µm (2 mil to 3 mil) standoff height. The solder paste stencil design is the first step in developing optimized, reliable solder joins. Stencil aperture size to solder mask defined PCB land size ratio should typically be 1:1. The aperture width may be reduced slightly to help prevent solder bridging between adjacent I/O lands. To reduce solder paste volume on the larger thermal lands, it is recommended that an array of smaller apertures be used instead of one large aperture. It is recommended that the stencil printing area cover 50% to 80% of the PCB layout pattern. A typical solder stencil pattern is shown on pages 71 through 77. The gap width between pads is 0.6mm. The user should consider the symmetry of the whole stencil pattern when designing its pads. A laser cut, stainless steel stencil with electropolished trapezoidal walls is recommended. Electropolishing “smooths” the aperture walls resulting in reduced surface friction and better paste release, which reduces voids. Using a Trapezoidal Section Aperture (TSA) also promotes paste release and forms a “brick like” paste deposit that assists in firm component placement. A 0.1mm to 0.15mm stencil thickness is recommended for this large pitch (1.3mm) HDA. FN8931 Rev.1.00 Jan 4, 2018 Page 34 of 81 ISL8274M 5.6 5. Layout Guide Reflow Parameters Due to the low mount height of the HDA, “No-Clean” Type 3 solder paste per ANSI/J-STD-005 is recommended. A nitrogen purge is also recommended during reflow. A system board reflow profile depends on the thermal mass of the entire populated board, so it is not practical to define a specific soldering profile just for the HDA. The profile given in Figure 33 is provided as a guideline, which can be customized for varying manufacturing practices and applications. 300 Peak Temperature ~+245°C; Typically 60s-150s Above +217°C Keep Less than 30s within 5°C of Peak Temp. Temperature (°C) 250 200 Slow Ramp (3°C/s Max) and Soak From +150°C to +200°C for 60s~180s 150 100 Ramp Rate 1.5°C from +70°C to +90°C 50 0 0 100 150 200 250 300 350 Duration (s) Figure 33. Typical Reflow Profile FN8931 Rev.1.00 Jan 4, 2018 Page 35 of 81 ISL8274M 6. 6. PMBus Command Summary PMBus Command Summary Command Code Command Name Description Type Data Format Default Value 00h Default Setting Page 00h PAGE Selects Controller 0, 1, or both. R/W Byte BIT Channel 1 page 42 01h OPERATION Sets Enable, Disable, and VOUT Margin modes. R/W Byte BIT 02h ON_OFF_CONFIG Configures the EN pin and PMBus commands to turn the unit ON/OFF. R/W Byte BIT 03h CLEAR_FAULTS Clears fault indications. SEND Byte page 43 15h STORE_USER_ALL Stores all PMBus values written since last restore at user level. SEND Byte page 43 16h RESTORE_USER_ALL Restores PMBus settings that were stored using STORE_USER_ALL. SEND Byte page 43 20h VOUT_MODE Preset to defined data format of VOUT commands. READ Byte BIT 21h VOUT_COMMAND Sets the nominal value of the output voltage. R/W Word L16u 23h VOUT_CAL_OFFSET Applies a fixed offset voltage to the VOUT_COMMAND. R/W Word L16s 24h VOUT_MAX Sets the maximum possible value of VOUT. 110% of pin-strap VOUT. R/W Word 25h VOUT_MARGIN_HIGH Sets the value of the VOUT during a margin high. 26h VOUT_MARGIN_LOW 27h page 42 17h page 42 Linear Mode, Exponent = -13 page 43 Pin-strap page 44 0V page 44 L16u 1.1*VOUT Pin-strap page 44 R/W Word L16u 1.05*VOUT Pin-strap page 44 Sets the value of the VOUT during a margin low. R/W Word L16u 0.95*VOUT Pin-strap page 45 VOUT_TRANSITION_RATE Sets the transition rate during margin or other change of VOUT. R/W Word L11 BA00h 1V/ms page 45 28h VOUT_DROOP Sets the loadline (V/I Slope) resistance for the rail. R/W Word L11 0000h 0mV/A page 45 33h FREQUENCY_SWITCH Sets the switching frequency. R/W Word L11 Pin-strap page 45 37h INTERLEAVE Configures a phase offset between devices sharing a SYNC clock. R/W Word BIT 0021h(Ch1) 180° phase shift /0022(Ch2) between Ch1/Ch2 page 46 38h IOUT_CAL_GAIN Sense resistance for inductor DCR current sensing. R/W Word L11 B2C3(Ch1)/ 0.69mΩ (Ch1)/ B2D7(Ch2) 0.7mΩ (Ch2) page 46 39h IOUT_CAL_OFFSET Sets the current-sense offset. R/W Word L11 B529(Ch1)/ -0.71A(Ch1)/ BDDC(Ch2) -1.07A(Ch2) page 46 FN8931 Rev.1.00 Jan 4, 2018 13h Hardware Pin Enable, immediate off 0000h Page 36 of 81 ISL8274M 6. PMBus Command Summary Command Code Command Name Description Type Data Format 40h VOUT_OV_FAULT_LIMIT Sets the VOUT overvoltage fault threshold. R/W Word L16u 41h VOUT_OV_FAULT_RESPONSE Configures the VOUT overvoltage fault response. R/W Byte BIT 42h VOUT_OV_WARN_LIMIT Sets the VOUT overvoltage warn threshold. R/W Word 43h VOUT_UV_WARN_LIMIT Sets the VOUT undervoltage warn threshold. 44h VOUT_UV_FAULT_LIMIT 45h Default Value Default Setting Page 1.15*VOUT Pin-strap page 46 Disable and No Retry page 47 L16u 1.10*VOUT Pin-strap page 47 R/W Word L16u 0.9*VOUT Pin-strap page 47 Sets the VOUT undervoltage fault threshold. R/W Word L16u 0.85*VOUT Pin-strap page 48 VOUT_UV_FAULT_RESPONSE Configures the VOUT undervoltage fault response. R/W Byte BIT 80h Disable and No Retry page 48 46h IOUT_OC_FAULT_LIMIT Sets the IOUT peak overcurrent fault threshold. R/W Word L11 E320h 50A page 48 4Ah IOUT_OC_WARN_LIMIT Sets the IOUT average overcurrent warning threshold. R/W Word L11 4Bh IOUT_UC_FAULT_LIMIT Sets the IOUT valley undercurrent fault threshold. R/W Word L11 E4E0h -50A page 49 4Fh OT_FAULT_LIMIT Sets the over-temperature fault threshold. R/W Word L11 EB98h +115°C page 49 50h OT_FAULT_RESPONSE Configures the over-temperature fault response. R/W Byte BIT 80h Disable and No Retry page 50 51h OT_WARN_LIMIT Sets the over-temperature warning limit. R/W Word L11 EB48h +105°C page 50 52h UT_WARN_LIMIT Sets the under-temperature warning limit. R/W WORD L11 DC40h -30°C page 50 53h UT_FAULT_LIMIT Sets the under-temperature fault threshold. R/W Word L11 E530h -45°C page 51 54h UT_FAULT_RESPONSE Configures the under-temperature fault response. R/W Byte BIT 80h Disable and No Retry page 51 55h VIN_OV_FAULT_LIMIT Sets the VIN overvoltage fault threshold. R/W Word L11 D3A0 14.5V page 51 56h VIN_OV_FAULT_RESPONSE Configures the VIN overvoltage fault response. R/W Byte BIT 80h Disable and No Retry page 52 57h VIN_OV_WARN_LIMIT Sets the input overvoltage warning limit. R/W Word L11 D353h 13.3V page 52 58h VIN_UV_WARN_LIMIT Sets the input undervoltage warning limit. R/W Word L11 1.03*VIN UV Fault Limit page 52 FN8931 Rev.1.00 Jan 4, 2018 80h 0.9*IOUT_AVG_OC page 49 _FAULT_LIMIT Page 37 of 81 ISL8274M 6. PMBus Command Summary Command Code Command Name Description Type Data Format 59h VIN_UV_FAULT_LIMIT Sets the VIN undervoltage fault threshold. R/W Word L11 5Ah VIN_UV_FAULT_RESPONSE Configures the VIN undervoltage fault response. R/W Byte BIT 5Eh POWER_GOOD_ON Sets the voltage threshold for power-good indication. R/W Word 60h TON_DELAY Sets the delay time from ENABLE to start of VOUT rise. 61h TON_RISE 64h Default Value Default Setting Page Pin-strap page 53 Disable and No Retry page 53 L16u 0.9*VOUT Pin-strap page 53 R/W Word L11 Pin-strap page 54 Sets the rise time of VOUT after ENABLE and TON_DELAY. R/W Word L11 Pin-strap page 54 TOFF_DELAY Sets the delay time from DISABLE to start of VOUT fall. R/W Word L11 Pin-strap page 54 65h TOFF_FALL Sets the fall time for VOUT after DISABLE and TOFF_DELAY. R/W Word L11 Pin-strap page 54 78h STATUS_BYTE Returns an abbreviated status for fast reads. Read Byte BIT 00h No Faults page 55 79h STATUS_WORD Returns information with a summary of the units's fault condition. Read Word BIT 0000h No Faults page 56 7Ah STATUS_VOUT Returns the VOUT specific status. Read Byte BIT 00h No Faults page 56 7Bh STATUS_IOUT Returns the IOUT specific status. Read Byte BIT 00h No Faults page 57 7Ch STATUS_INPUT Returns specific status specific to the input. Read Byte BIT 00h No Faults page 57 7Dh STATUS_TEMP Returns the temperature specific status. Read Byte BIT 00h No Faults page 57 7Eh STATUS_CML Returns the communication, logic and memory specific status. Read Byte BIT 00h No Faults page 58 80h STATUS_MFR_SPECIFIC Returns the VMON and external sync clock specific status. Read Byte BIT 00h No Faults page 58 88h READ_VIN Returns the input voltage reading. Read Word L11 page 58 8Bh READ_VOUT Returns the output voltage reading. Read Word L16u page 59 8Ch READ_IOUT Returns the output current reading. Read Word L11 page 59 8Dh READ_INTERNAL_TEMP Returns the temperature reading internal to the device. Read Word L11 page 59 94h READ_DUTY_CYCLE Returns the duty cycle reading during the ENABLE state. Read Word L11 page 59 FN8931 Rev.1.00 Jan 4, 2018 80h Page 38 of 81 ISL8274M 6. PMBus Command Summary Command Code Command Name Description Type Data Format Default Value Default Setting Page 95h READ_FREQUENCY Returns the measured operating switch frequency. Read Word L11 99h MFR_ID Sets a user defined identification. R/W Block ASC Null page 60 9Ah MFR_MODEL Sets a user defined model. R/W Block ASC Null page 60 9Bh MFR_REVISION Sets a user defined revision. R/W Block ASC Null page 60 9Ch MFR_LOCATION Sets a user defined location identifier. R/W Block ASC Null page 60 9Dh MFR_DATE Sets a user defined date. R/W Block ASC Null page 61 9Eh MFR_SERIAL Sets a user defined serialized identifier. R/W Block ASC Null page 61 A8h LEGACY_FAULT_GROUP Sets rail IDs of legacy devices for fault spreading R/W Block BIT B0h USER_DATA_00 Sets a user defined data. R/W Block ASC D0h ISENSE_CONFIG Configures ISENSE related features. R/W Byte BIT D1h USER_CONFIG Configures several user-level features. R/W Byte BIT D3h DDC_CONFIG Configures the DDC bus. R/W Word BIT D4h POWER_GOOD_DELAY Sets the delay between VOUT > PG threshold and asserting the PG pin. R/W Word L11 DFh ASCR_CONFIG Configures ASCR control loop. R/W Block CUS E0h SEQUENCE Identifies the Rail DDC ID to perform multi-rail sequencing. R/W Word BIT E1h TRACK_CONFIG Configures voltage tracking modes R/W Byte BIT Pin-strap setting page 66 E2h DDC_GROUP Sets rail DDC IDs to obey faults and margining spreading information. R/W Block BIT Ignore Broadcast VOUT_COMMAND, OPERATION page 66 E4h DEVICE_ID Returns the 16-byte (character) device identifier string. Read Block ASC Reads Device Version page 67 E5h MFR_IOUT_OC_FAULT_ RESPONSE Configures the IOUT overcurrent fault response. R/W Byte BIT 80h Disable and No Retry page 67 E6h MFR_IOUT_UC_FAULT_ RESPONSE Configures the IOUT undercurrent fault response. R/W Byte BIT 80h Disable and No Retry page 67 E7h IOUT_AVG_OC_FAULT_LIMIT Sets the IOUT average overcurrent fault threshold. R/W L11 Set by SYNC/OCP pin-strap page 68 FN8931 Rev.1.00 Jan 4, 2018 page 59 00000000h No rail ID specified page 61 Null page 62 06h 256ns Blanking Time, High Range page 62 84h Minimum duty control, PG open drain page 63 Pin-strap (Rail ID set based on PMBus address. Phase ID = 0; Phases in Rail = 1 page 63 3ms page 64 Pin-strap page 64 C300h 0000h Prequel and Sequel page 65 Disabled Page 39 of 81 ISL8274M 6. PMBus Command Summary Command Code Command Name Description Type Data Format Default Value Default Setting Page E8h IOUT_AVG_UC_FAULT_LIMIT Sets the IOUT average undercurrent fault threshold. R/W L11 DC40h E9h SYNC_CONFIG Configures the SYNC pin. R/W Byte BIT 00h EAh SNAPSHOT Returns 32-byte read-back of parametric and status values. Read Block BIT EBh BLANK_PARAMS Returns recently changed parameter values. Read Block BIT F3h SNAPSHOT_CONTROL Snapshot feature control command. R/W Byte BIT F4h RESTORE_FACTORY Restores device to the factory default values. Send Byte F5h MFR_VMON_OV_FAULT_LIMIT Returns the VMON overvoltage threshold. Read Word L11 CB00h 6V page 70 F6h MFR_VMON_UV_FAULT_LIMIT Returns the VMON undervoltage threshold. Read Word L11 CA00h 4V page 71 F7h MFR_READ_VMON Returns the VMON voltage reading. Read Word L11 F8h VMON_OV_FAULT_RESPONSE Returns the VMON overvoltage response. Read Byte BIT 80h Disable and No Retry page 71 F9h VMON_UV_FAULT_RESPONSE Returns the VMON undervoltage response. Read Byte BIT 80h Disable and No Retry page 71 FN8931 Rev.1.00 Jan 4, 2018 -30A page 68 Pin-strap (set based on SYNC/OCP) page 69 page 69 FF...FFh page 70 page 70 page 70 page 71 Page 40 of 81 ISL8274M 6.1 6. PMBus Command Summary PMBus Data Formats Linear-11 (L11) L11 data format uses 5-bit two’s complement exponent (N) and 11-bit two’s complement mantissa (Y) to represent real world decimal value (X). Data Byte High Data Byte Low 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Exponent (N) Mantissa (Y) Relation between real world decimal value (X), N, and Y is: X = Y·2N Linear-16 Unsigned (L16u) L16u data format uses a fixed exponent (hard-coded to N = -13h) and a 16-bit unsigned integer mantissa (Y) to represent real world decimal value (X). Relation between real world decimal value (X), N and Y is: X = Y·2-13 Linear-16 Signed (L16s) L16s data format uses a fixed exponent (hard-coded to N = -13h) and a 16-bit two’s complement mantissa (Y) to represent real world decimal value (X). Relation between real world decimal value (X), N and Y is: X = Y·2-13 Bit Field (BIT) An explanation of the Bit Field for each command is provided in “PMBus Commands Description” on page 41. Custom (CUS) An explanation of the Custom data format for each command is provided in “PMBus Commands Description” on page 41. A combination of Bit Field and integer is a common type of Custom data format. ASCII (ASC) A variable length string of text characters uses ASCII data format. 6.2 PMBus Use Guidelines The PMBus is a powerful tool that allows the user to optimize circuit performance by configuring devices for their application. When configuring a device in a circuit, the device should be disabled whenever most settings are changed with PMBus commands. Some exceptions to this recommendation are OPERATION, ON_OFF_CONFIG, CLEAR_FAULTS, VOUT_COMMAND, VOUT_MARGIN_HIGH, VOUT_MARGIN_LOW, and ASCCR_CONFIG. While the device is enabled any command can be read. Many commands do not take effect until after the device has been re-enabled, hence the recommendation that commands that change device settings are written while the device is disabled. When sending the STORE_USER_ALL and RESTORE_USER_ALL commands, it is recommended that no other commands are sent to the device for 100ms after sending STORE or RESTORE commands. In addition, there should be a 2ms delay between repeated READ commands sent to the same device. When sending any other command, a 5ms delay is recommended between repeated commands sent to the same device. 6.3 Summary All commands can be read at any time. Always disable the device when writing commands that change device settings. Exceptions to this rule are commands intended to be written while the device is enabled, for example, VOUT_MARGIN_HIGH. To be sure a change to a device setting has taken effect, write the STORE_USER_ALL command, then cycle input power and re-enable. FN8931 Rev.1.00 Jan 4, 2018 Page 41 of 81 ISL8274M 7. 7. PMBus Commands Description PMBus Commands Description PAGE(00h) Definition: Select Channel 1, Channel 2 or both channels to receive commands. All commands following this command will be received and acted on by the selected channel or channels. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 00h (Page 0) Units: N/A Bits 7:4 Bits 3:0 Page 0000 0000 0 0000 0001 1 1111 1111 Both OPERATION (01h) Definition: Sets Enable, Disable and VOUT Margin settings. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: Units: N/A Settings Actions 00h Immediate off (no sequencing) 40h Soft off (with sequencing) 80h On - Nominal 90h On - Margin low A0h On - Margin high ON_OFF_CONFIG (02h) Definition: Configures the interpretation and coordination of the OPERATION command and the ENABLE pin (EN). Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 17h (Device starts from ENABLE pin with soft-off) Units: N/A Settings FN8931 Rev.1.00 Jan 4, 2018 Actions 16h Device starts from ENABLE pin with soft off. 17h Device starts from ENABLE pin with immediate off. 1Ah Device starts from OPERATION command with soft off. 1Bh Device starts from OPERATION command with immediate off. Page 42 of 81 ISL8274M 7. PMBus Commands Description CLEAR_FAULTS (03h) Definition: Clears all fault bits in all registers and releases the SALRT pin (if asserted) simultaneously. If a fault condition still exists, the bit will reassert immediately. This command will not restart a device if it has shut down, it will only clear the faults. Data Length in Bytes: 0 Byte Data Format: N/A Type: Send byte Default Value: N/A Units: N/A Reference: N/A STORE_USER_ALL (15h) Definition: Stores all PMBus settings from the operating memory to the nonvolatile USER store memory. To clear the USER store, perform a RESTORE_FACTORY then STORE_USER_ALL. To add to the USER store, perform a RESTORE_USER_ALL, write commands to be added, then STORE_USER_ALL. This command can be used during device operation, but the device will be unresponsive for 20ms while storing values. Data Length in Bytes: 0 Data Format: N/A Type: Send byte Default Value: N/A Units: N/A RESTORE_USER_ALL (16h) Definition: Restores all PMBus settings from the USER store memory to the operating memory. Command performed at power-up. Security level is changed to Level 1 following this command. This command can be used during device operation, but the device will be unresponsive for 20ms while storing values. Data Length in Bytes: 0 Data Format: N/A Type: Send byte Default Value: N/A Units: N/A VOUT_MODE (20h) Definition: Reports the VOUT mode and provides the exponent used in calculating several VOUT settings. Fixed with linear mode with default exponent (N) = -13 Data Length in Bytes: 1 Data Format: BIT Type: Read Only Default Value: 13h (Linear Mode, N = -13) Units: N/A FN8931 Rev.1.00 Jan 4, 2018 Page 43 of 81 ISL8274M 7. PMBus Commands Description VOUT_COMMAND (21h) Definition: Sets or reports the target output voltage. This command cannot set a value higher than VOUT_MAX. Data Length in Bytes: 2 Data Format: L16u Type: R/W Default Value: Pin-strap setting Units: Volts Range: 0V to VOUT_MAX VOUT_CAL_OFFSET (23h) Definition: Applies a fixed offset voltage to the output voltage command value. This command is typically used by the user to calibrate a device in the application circuit. Data Length in Bytes: 2 Data Format: L16s Type: R/W Default Value: 0000h Units: Volts VOUT_MAX (24h) Definition: Sets an upper limit on the output voltage the unit can command regardless of any other commands or combinations. The intent of this command is to provide a safeguard against a user accidentally setting the output voltage to a possibly destructive level rather than to be the primary output overprotection. Default value can be changed using PMBus. Data Length in Bytes: 2 Data Format: L16u Type: R/W Default Value: 1.10xVOUT_COMMAND pin-strap setting Units: Volts Range: 0V to 5.5V VOUT_MARGIN_HIGH (25h) Definition: Sets the value of the VOUT during a margin high. This VOUT_MARGIN_HIGH command loads the unit with the voltage to which the output is to be changed when the OPERATION command is set to “Margin High”. Data Length in Bytes: 2 Data Format: L16u Type: R/W Default Value: 1.05 x VOUT_COMMAND pin-strap setting Units: V Range: 0V to VOUT_MAX FN8931 Rev.1.00 Jan 4, 2018 Page 44 of 81 ISL8274M 7. PMBus Commands Description VOUT_MARGIN_LOW (26h) Definition: Sets the value of the VOUT during a margin low. This VOUT_MARGIN_LOW command loads the unit with the voltage to which the output is to be changed when the OPERATION command is set to “Margin Low”. Data Length in Bytes: 2 Data Format: L16u Type: R/W Default Value: 0.95 x VOUT_COMMAND pin-strap setting Units: V Range: 0V to VOUT_MAX VOUT_TRANSITION_RATE (27h) Definition: Sets the rate at which the output should change voltage when the device receives the VOUT_COMMAND or an OPERATION command (Margin High, Margin Low) that causes the output voltage to change. The maximum possible positive value of the two data bytes indicates that the device should make the transition as quickly as possible. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: BA00h (1V/ms) Units: V/ms Range: 0.1V/ms to 4V/ms VOUT_DROOP (28h) Definition: Sets the effective load line (V/I slope) for the rail in which the device is used. It is the rate, in mV/A, at which the output voltage decreases (or increases) with increasing (or decreasing) output current for use with adaptive voltage positioning schemes or multi-module current sharing. In current sharing configuration, VOUT_DROOP set in each module stands for the droop seen by the load. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: Pin-strap setting Units: mV/A Range: 0mV/A to 40mV/A FREQUENCY_SWITCH (33h) Definition: Sets the switching frequency of the device. Initial default value is defined by a pin-strap and this value can be overridden by writing this command through the PMBus. If an external SYNC is utilized, this value should be set as close as possible to the external clock value. The output must be disabled when writing this command. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: Pin-strap setting Units: kHz Range: 296kHz to 1066kHz FN8931 Rev.1.00 Jan 4, 2018 Page 45 of 81 ISL8274M 7. PMBus Commands Description INTERLEAVE (37h) Definition: Configures the phase offset of a device that is sharing a common SYNC clock with other devices. The phase offset of each device can be set to any value between 0° and 360° in 22.5° increments. The internal two phases of the module always maintain a phase difference of 180°. Data Length in Bytes: 2 Data Format: BIT Type: R/W Default Value: 0021h (Page0), 0022h (Page1) Units: N/A Bits Purpose Value 15:4 Reserved 0 3:0 Position in Group 0 to 15 Description Reserved Sets position of the device's rail within the group. IOUT_CAL_GAIN (38h) Definition: Sets the effective impedance across the current sense circuit for use in calculating output current at +25°C. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: Ch1: B2C3(0.69mΩ); Ch2: B2D7(0.7mΩ) Units: mΩ IOUT_CAL_OFFSET (39h) Definition: Nulls out any offsets in the output current sensing circuit for each phase, and compensates for delayed measurements of current ramp due to ISENSE blanking time. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: Ch1: B529(-0.71A); Ch2: BDDC(-1.07A) Units: A VOUT_OV_FAULT_LIMIT (40h) Definition: Sets the VOUT overvoltage fault threshold. Data Length in Bytes: 2 Data Format: L16u Type: R/W Default Value: 1.15xVOUT_COMMAND pin-strap setting Units: V Range: 0V to VOUT_MAX FN8931 Rev.1.00 Jan 4, 2018 Page 46 of 81 ISL8274M 7. PMBus Commands Description VOUT_OV_FAULT_RESPONSE (41h) Definition: Configures the VOUT overvoltage fault response. Note that the device cannot be set to ignore this fault mode. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 80h (Disable and no retry) Units: N/A Bit Field Name Value 7:6 Reserved 10 5:3 Retry Setting 000 001-110 111 2:0 Retry Delay 000-111 Description No retry. The output remains disabled until the fault is cleared. Not used. Attempts to restart continuously, without checking if the fault is still present, until it is commanded OFF (by the CONTROL pin or OPERATION command), bias power is removed, or another fault condition causes the unit to shut down. Retry delay time = (Value + 1) * 35ms. Sets the time between retries in 35ms VOUT_OV_WARN_LIMIT (42h) Definition: Sets the VOUT overvoltage warning threshold. The power-good signal is pulled low when the output voltage goes higher than this threshold. Data Length in Bytes: 2 Data Format: L16u Type: R/W Default Value: 1.10xVOUT_COMMAND pin-strap setting Units: V Range: 0V to VOUT_MAX VOUT_UV_WARN_LIMIT (43h) Definition: Sets the VOUT undervoltage warning threshold. The power-good signal is pulled low when the output voltage goes lower than this threshold. Data Length in Bytes: 2 Data Format: L16u Type: R/W Default Value: 0.90 x VOUT_COMMAND pin-strap setting Units: V Range: 0V to VOUT_MAX FN8931 Rev.1.00 Jan 4, 2018 Page 47 of 81 ISL8274M 7. PMBus Commands Description VOUT_UV_FAULT_LIMIT (44h) Definition: Sets the VOUT undervoltage fault threshold. This fault is masked during ramp or when disabled. Data Length in Bytes: 2 Data Format: L16u Type: R/W Default Value: 0.85 x VOUT_COMMAND pin-strap setting Units: V Range: 0V to VOUT_MAX VOUT_UV_FAULT_RESPONSE (45h) Definition: Configures the VOUT undervoltage fault response. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 80h (Disable, no retry) Units: N/A Bit Field Name Value 7:6 Reserved 10 5:3 Retry Setting 000 001-110 111 2:0 Retry Delay 000-111 Description No retry. The output remains disabled until the fault is cleared. Not used. Attempts to restart continuously, without checking if the fault is still present, until it is commanded OFF (by the CONTROL pin or OPERATION command), bias power is removed, or another fault condition causes the unit to shut down. Retry delay time = (Value + 1) * 35ms. Sets the time between retries in 35ms increments. Range is 35ms to 280ms. IOUT_OC_FAULT_LIMIT (46h) Definition: Sets the IOUT peak overcurrent fault threshold. This limit is applied to current measurement samples taken after the Current Sense Blanking Time has expired. A fault occurs after this limit is exceeded. The recommended peak OCP limit is determined by (EQ. 2). (EQ. 2) IOUT_OC_FAULT_LIMIT =  IOUT_AVG_OC_FAULT_LIMIT + 0.5  IRIPPLE P – P   130% A hard bound of 50A is applied to the command value. This feature shares the OC fault bit operation (in STATUS_IOUT) and OC fault response with the IOUT_AVG_OC_FAULT_LIMIT. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: E320h (50A) Units: A Range: -100A to 100A FN8931 Rev.1.00 Jan 4, 2018 Page 48 of 81 ISL8274M 7. PMBus Commands Description IOUT_OC_WARN_LIMIT (4Ah) Definition: Sets the IOUT average overcurrent warning threshold. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: IOUT_AVG_OC_FAULT_LIMIT x 0.9 Units: A Range: -100A to 100A IOUT_UC_FAULT_LIMIT (4Bh) Definition: Sets the IOUT valley undercurrent fault threshold. This limit is applied to current measurement samples taken after the Current Sense Blanking Time has expired. A fault occurs after this limit is exceeded. The recommended valley UCP limit is determined by (EQ. 3): (EQ. 3) IOUT_UC_FAULT_LIMIT =  IOUT_AVG_UC_FAULT_LIMIT – 0.5  IRIPPLE P – P   130% A hard bound of -50A is applied to the command value. This feature shares the UC fault bit operation (in STATUS_IOUT) and UC fault response with IOUT_AVG_UC_FAULT_LIMIT. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: E4E0 (-50A) Units: A Range: -100A to 100A OT_FAULT_LIMIT (4Fh) Definition: Sets the temperature at which the device should indicate an over-temperature fault. Note that the temperature must drop below OT_WARN_LIMIT to clear this fault. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: EB98 (+115°C) Units: °C Range: 0°C to +175°C FN8931 Rev.1.00 Jan 4, 2018 Page 49 of 81 ISL8274M 7. PMBus Commands Description OT_FAULT_RESPONSE (50h) Definition: Instructs the device on what action to take in response to an over-temperature fault. Data Length in Bytes: 1 Data Format: BIT Type: R/W Fault Value: 80h (Disable and no retry) Units: N/A Bit Field Name Value 7:6 Reserved 10 5:3 Retry Setting 000 001-110 111 2:0 Retry Delay 000-111 Description No retry. The output remains disabled until the fault is cleared. Not used. Attempts to restart continuously, without checking if the fault is still present, until it is commanded OFF (by the CONTROL pin or OPERATION command), bias power is removed, or another fault condition causes the unit to shut down. Retry delay time = (Value + 1)*35ms. Sets the time between retries in 35ms increments. Range is 35ms to 280ms. OT_WARN_LIMIT (51h) Definition: Sets the temperature at which the device should indicate an over-temperature warning alarm. In response to the OT_WARN_LIMIT being exceeded, the device sets the TEMPERATURE bit in STATUS_WORD, sets the OT_WARNING bit in STATUS_TEMPERATURE, and notifies the host. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: EB48h (+105°C) Units: °C Range: 0°C to +175°C UT_WARN_LIMIT (52h) Definition: Sets the temperature at which the device should indicate an under-temperature warning alarm. In response to the UT_WARN_LIMIT being exceeded, the device sets the TEMPERATURE bit in STATUS_WORD, sets the UT_WARNING bit in STATUS_TEMPERATURE, and notifies the host. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: DC40h (-30°C) Units: °C Range: -55°C to +25°C FN8931 Rev.1.00 Jan 4, 2018 Page 50 of 81 ISL8274M 7. PMBus Commands Description UT_FAULT_LIMIT (53h) Definition: Sets the temperature, in degrees Celsius, of the unit where it should indicate an under-temperature fault. Note that the temperature must rise above UT_WARN_LIMIT to clear this fault. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: E530h (-45°C) Units: °C Range: -55°C to +25°C UT_FAULT_RESPONSE (54h) Definition: Configures the under-temperature fault response as defined by the following table. The delay time is the time between restart attempts. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 80h (Disable, no retry) Units: N/A Bit Field Name Value 7:6 Reserved 10 5:3 Retry Setting 000 001-110 111 2:0 Retry Delay 000-111 Description No retry. The output remains disabled until the fault is cleared. Not used. Attempts to restart continuously, without checking if the fault is still present, until it is commanded OFF (by the CONTROL pin or OPERATION command), bias power is removed, or another fault condition causes the unit to shut down. Retry delay time = (Value + 1) * 35ms. Sets the time between retries in 35ms increments. Range is 35ms to 280ms. VIN_OV_FAULT_LIMIT (55h) Definition: Sets the VIN overvoltage fault threshold. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: D3A0 (14.5V) Units: V Range: 0V to 16V FN8931 Rev.1.00 Jan 4, 2018 Page 51 of 81 ISL8274M 7. PMBus Commands Description VIN_OV_FAULT_RESPONSE (56h) Definition: Configures the VIN overvoltage fault response as defined by the following table. The delay time is the time between restart attempts. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 80h (Disable and no retry) Units: N/A Bit Field Name Value 7:6 Reserved 10 5:3 Retry Setting 000 001-110 111 2:0 Retry Delay 000-111 Description No retry. The output remains disabled until the fault is cleared. Not used. Attempts to restart continuously, without checking if the fault is still present, until it is commanded OFF (by the CONTROL pin or OPERATION command), bias power is removed, or another fault condition causes the unit to shut down. Retry delay time = (Value + 1) * 35ms. Sets the time between retries in 35ms increments. Range is 35ms to 280ms. VIN_OV_WARN_LIMIT (57h) Definition: Sets the VIN overvoltage warning threshold. In response to the OV_WARN_LIMIT being exceeded, the device sets the NONE OF THE ABOVE and INPUT bits in STATUS_WORD, sets the VIN_OV_WARNING bit in STATUS_INPUT, and notifies the host. Data Length in Bytes: 2 Data Format: L11 Type: R/W Protectable: Yes Default Value: D353h (13.3V) Units: V Range: 0V to 16V VIN_UV_WARN_LIMIT (58h) Definition: Sets the VIN undervoltage warning threshold. If a VIN_UV_FAULT occurs, the input voltage must rise above VIN_UV_WARN_LIMIT to clear the fault, which provides hysteresis to the fault threshold. In response to the UV_WARN_LIMIT being exceeded, the device sets the NONE OF THE ABOVE and INPUT bits in STATUS_WORD, sets the VIN_UV_WARNING bit in STATUS_INPUT, and notifies the host. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: 1.03 x VIN_UV_FAULT_LIMIT pin-strap setting Units: V Range: 0V to 12V FN8931 Rev.1.00 Jan 4, 2018 Page 52 of 81 ISL8274M 7. PMBus Commands Description VIN_UV_FAULT_LIMIT (59h) Definition: Sets the VIN undervoltage fault threshold. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: Pin-strap setting Units: V Range: 0V to 12V VIN_UV_FAULT_RESPONSE (5Ah) Definition: Configures the VIN undervoltage fault response as defined by the following table. The delay time is the time between restart attempts. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 80h (Disable and no retry) Units: N/A Bit Field Name Value 7:6 Reserved 10 5:3 Retry Setting 000 001-110 111 2:0 Retry Delay 000-111 Description No retry. The output remains disabled until the fault is cleared. Not used. Attempts to restart continuously, without checking if the fault is still present, until it is commanded OFF (by the CONTROL pin or OPERATION command), bias power is removed, or another fault condition causes the unit to shut down. Retry delay time = (Value + 1)*35ms. Sets the time between retries in 35ms increments. Range is 35ms to 280ms. POWER_GOOD_ON (5Eh) Definition: Sets the voltage threshold for power-good indication. Power-good asserts with a delay specified in POWER_GOOD_DELAY after the output voltage exceeds POWER_GOOD_ON and deasserts when the output voltage is less than VOUT_UV_WARN_LIMIT. It is recommended to set POWER_GOOD_ON higher than VOUT_UV_FAULT_LIMIT. Data Length in Bytes: 2 Data Format: L16u Type: R/W Default Value: 0.9xVOUT_COMMAND pin-strap setting Units: V FN8931 Rev.1.00 Jan 4, 2018 Page 53 of 81 ISL8274M 7. PMBus Commands Description TON_DELAY (60h) Definition: Sets the delay time from when the device is enabled to the start of VOUT rise. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: Pin-strap setting Units: ms Range: 2ms to 256ms TON_RISE (61h) Definition: Sets the rise time of VOUT after ENABLE and TON_DELAY. In multi-module current sharing configuration where ASCR is disabled for start up, the rise time of VOUT can be approximately calculated by (EQ. 1). Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: Pin-strap setting Units: ms Range: 0ms to 100ms TOFF_DELAY (64h) Definition: Sets the delay time from DISABLE to start of VOUT fall. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: Pin-strap setting Units: ms Range: 0ms to 256ms TOFF_FALL (65h) Definition: Sets the soft-off fall time for VOUT after DISABLE and TOFF_DELAY. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: Pin-strap setting Units: ms Range: 0ms to 100ms FN8931 Rev.1.00 Jan 4, 2018 Page 54 of 81 ISL8274M 7. PMBus Commands Description STATUS_BYTE (78h) Definition: Returns one byte of information with a summary of the most critical faults. Data Length in Bytes: 1 Data Format: BIT Type: Read Only Default Value: 00h Units: N/A Bit Number Status Bit Name 7 BUSY A fault was declared because the device was busy and unable to respond. 6 OFF This bit is asserted if the unit is not providing power to the output, regardless of the reason, including simply not being enabled. 5 VOUT_OV_FAULT 4 IOUT_OC_FAULT An output overcurrent fault has occurred. 3 VIN_UV_FAULT An input undervoltage fault has occurred. 2 TEMPERATURE A temperature fault or warning has occurred. 1 CML 0 NONE OF THE ABOVE FN8931 Rev.1.00 Jan 4, 2018 Meaning An output overvoltage fault has occurred. A communications, memory, or logic fault has occurred. A fault or warning not listed in Bits 7:1 has occurred. Page 55 of 81 ISL8274M 7. PMBus Commands Description STATUS_WORD (79h) Definition: Returns two bytes of information with a summary of the unit's fault condition. Based on the information in these bytes, the host can get more information by reading the appropriate status registers. The low byte of the STATUS_WORD is the same register as the STATUS_BYTE (78h) command. Data Length in Bytes: 2 Data Format: BIT Type: Read Only Default Value: 0000h Units: N/A Bit Number Status Bit Name 15 VOUT Meaning 14 IOUT/POUT 13 INPUT 12 MFG_SPECIFIC A manufacturer specific fault or warning has occurred. 11 POWER_GOOD# The POWER_GOOD signal, if present, is negated. An output voltage fault or warning has occurred. An output current or output power fault or warning has occurred. An input voltage, input current, or input power fault or warning has occurred. 10 FANS 9 OTHER A fan or airflow fault or warning has occurred. 8 UNKNOWN 7 BUSY A fault was declared because the device was busy and unable to respond. 6 OFF This bit is asserted if the unit is not providing power to the output, regardless of the reason, including simply not being enabled. 5 VOUT_OV_FAULT 4 IOUT_OC_FAULT An output overcurrent fault has occurred. 3 VIN_UV_FAULT An input undervoltage fault has occurred. 2 TEMPERATURE A temperature fault or warning has occurred. 1 CML 0 NONE OF THE ABOVE A bit in STATUS_OTHER is set. A fault type not given in Bits 15:1 of the STATUS_WORD has been detected. An output overvoltage fault has occurred. A communications, memory, or logic fault has occurred. A fault or warning not listed in Bits 7:1 has occurred. STATUS_VOUT (7Ah) Definition: Returns one data byte with the status of the output voltage. Data Length in Bytes: 1 Data Format: BIT Type: Read Only Default Value: 00h Units: N/A Bit Number Status Bit Name Meaning 7 VOUT_OV_FAULT 6 VOUT_OV_WARNING Indicates an output overvoltage warning. 5 VOUT_UV_WARNING Indicates an output undervoltage warning. 4 VOUT_UV_FAULT 3:0 N/A FN8931 Rev.1.00 Jan 4, 2018 Indicates an output overvoltage fault. Indicates an output undervoltage fault. These bits are not used. Page 56 of 81 ISL8274M 7. PMBus Commands Description STATUS_IOUT (7Bh) Definition: Returns one data byte with the status of the output current. Data Length in Bytes: 1 Data Format: BIT Type: Read Only Default Value: 00h Units: N/A Bit Number Status Bit Name 7 IOUT_OC_FAULT Meaning 6 IOUT_OC_LV_FAULT An output overcurrent and low voltage fault has occurred. 5 IOUT_OC_WARNING An output overcurrent warning has occurred. 4 IOUT_UC_FAULT 3:0 N/A An output overcurrent fault has occurred. An output undercurrent fault has occurred. These bits are not used. STATUS_INPUT (7Ch) Definition: Returns the input voltage and input current status information. Data Length in Bytes: 1 Data Format: BIT Type: Read Only Default Value: 00h Units: N/A Bit Number Status Bit Name Meaning 7 VIN_OV_FAULT An input overvoltage fault has occurred. 6 VIN_OV_WARNING An input overvoltage warning has occurred. 5 VIN_UV_WARNING An input undervoltage warning has occurred. 4 VIN_UV_FAULT 3:0 N/A An input undervoltage fault has occurred. These bits are not used. STATUS_TEMP (7Dh) Definition: Returns one byte of information with a summary of any temperature related faults or warnings. Data Length in Bytes: 1 Data Format: BIT Type: Read Only Default Value: 00h Units: N/A Bit Number Status Bit Name 7 OT_FAULT 6 OT_WARNING An over-temperature warning has occurred. 5 UT_WARNING An under-temperature warning has occurred. 4 UT_FAULT 3:0 N/A FN8931 Rev.1.00 Jan 4, 2018 Meaning An over-temperature fault has occurred. An under-temperature fault has occurred. These bits are not used. Page 57 of 81 ISL8274M 7. PMBus Commands Description STATUS_CML (7Eh) Definition: Returns one byte of information with a summary of any communications, logic, and/or memory errors. Data Length in Bytes: 1 Data Format: BIT Type: Read Only Default Value: 00h Units: N/A Bit Number Meaning 7 Invalid or unsupported PMBus command was received. 6 The PMBus command was sent with invalid or unsupported data. 5 Packet error was detected in the PMBus command. 4:2 Not used 1 A PMBus command tried to write to a read-only or protected command, or a communication fault other than the ones listed in this table has occurred. 0 Not used STATUS_MFR_SPECIFIC (80h) Definition: Returns one byte of information providing the status of the device's voltage monitoring and clock synchronization faults. VMON OV/UV warnings are set at ±10% of the VMON_FAULT commands. Data Length in Bytes: 1 Data Format: BIT Type: Read only Default value: 00h Units: N/A Bit Number 7:6 Field Name Meaning Reserved 5 VMON UV Warning The voltage on the VMON pin has dropped 10% below the level set by VMON_UV_FAULT_LIMIT. 4 VMON OV Warning The voltage on the VMON pin has risen 10% above the level set by VMON_OV_FAULT_LIMIT. 3 External Switching Period Fault Loss of external clock synchronization has occurred. 2 Reserved 1 VMON UV Fault The voltage on the VMON pin has dropped below the level set by VMON_UV_FAULT_LIMIT. 0 VMON OV Fault The voltage on the VMON pin has risen above the level set by VMON_OV_FAULT_LIMIT. READ_VIN (88h) Definition: Returns the input voltage reading. Data Length in Bytes: 2 Data Format: L11 Type: Read Only Units: V FN8931 Rev.1.00 Jan 4, 2018 Page 58 of 81 ISL8274M 7. PMBus Commands Description READ_VOUT (8Bh) Definition: Returns the output voltage reading. Data Length in Bytes: 2 Data Format: L16u Type: Read Only Units: V READ_IOUT (8Ch) Definition: Returns the output current reading. Data Length in Bytes: 2 Data Format: L11 Type: Read Only Default Value: N/A Units: A READ_INTERNAL_TEMP (8Dh) Definition: Returns the controller junction temperature reading from the internal temperature sensor. Data Length in Bytes: 2 Data Format: L11 Type: Read Only Units: °C READ_DUTY_CYCLE (94h) Definition: Reports the actual duty cycle of the converter during the enable state. Data Length in Bytes: 2 Data Format: L11 Type: Read only Units: % READ_FREQUENCY (95h) Definition: Reports the actual switching frequency of the converter during the enable state. Data Length in Bytes: 2 Data Format: L11 Type: Read only Units: kHz FN8931 Rev.1.00 Jan 4, 2018 Page 59 of 81 ISL8274M 7. PMBus Commands Description MFR_ID (99h) Definition: Sets user defined identification. The sum total of characters in MFR_ID, MFR_MODEL, MFR_REVISION, MFR_LOCATION, MFR_DATE, MFR_SERIAL, and USER_DATA_00 plus one byte per command cannot exceed 128 characters. This limitation includes multiple writes of this command before a STORE command. To clear multiple writes, perform a RESTORE, write this command then perform a STORE/RESTORE. Data Length in Bytes: User defined Data Format: ASC Type: Block R/W Default Value: Null Units: N/A MFR_MODEL (9Ah) Definition: Sets a user defined model. The sum total of characters in MFR_ID, MFR_MODEL, MFR_REVISION, MFR_LOCATION, MFR_DATE, MFR_SERIAL, and USER_DATA_00 plus one byte per command cannot exceed 128 characters. This limitation includes multiple writes of this command before a STORE command. To clear multiple writes, perform a RESTORE, write this command then perform a STORE/RESTORE. Data Length in Bytes: User defined Data Format: ASC Type: Block R/W Default Value: Null Units: N/A MFR_REVISION (9Bh) Definition: Sets a user defined revision. The sum total of characters in MFR_ID, MFR_MODEL, MFR_REVISION, MFR_LOCATION, MFR_DATE, MFR_SERIAL, and USER_DATA_00 plus one byte per command cannot exceed 128 characters. This limitation includes multiple writes of this command before a STORE command. To clear multiple writes, perform a RESTORE, write this command then perform a STORE/RESTORE. Data Length in Bytes: User defined Data Format: ASC Type: Block R/W Default Value: Null Units: N/A MFR_LOCATION (9Ch) Definition: Sets a user defined location identifier. The sum total of characters in MFR_ID, MFR_MODEL, MFR_REVISION, MFR_LOCATION, MFR_DATE, MFR_SERIAL, and USER_DATA_00 plus one byte per command cannot exceed 128 characters. This limitation includes multiple writes of this command before a STORE command. To clear multiple writes, perform a RESTORE, write this command then perform a STORE/RESTORE. Data Length in Bytes: User defined Data Format: ASC Type: Block R/W Default Value: Null Units: N/A FN8931 Rev.1.00 Jan 4, 2018 Page 60 of 81 ISL8274M 7. PMBus Commands Description MFR_DATE (9Dh) Definition: Sets a user defined date. The sum total of characters in MFR_ID, MFR_MODEL, MFR_REVISION, MFR_LOCATION, MFR_DATE, MFR_SERIAL, and USER_DATA_00 plus one byte per command cannot exceed 128 characters. This limitation includes multiple writes of this command before a STORE command. To clear multiple writes, perform a RESTORE, write this command then perform a STORE/RESTORE. Data Length in Bytes: User defined Data Format: ASC Type: Block R/W Default Value: Null Units: N/A Reference: N/A MFR_SERIAL (9Eh) Definition: Sets a user defined serialized identifier. The sum total of characters in MFR_ID, MFR_MODEL, MFR_REVISION, MFR_LOCATION, MFR_DATE, MFR_SERIAL, and USER_DATA_00 plus one byte per command cannot exceed 128 characters. This limitation includes multiple writes of this command before a STORE command. To clear multiple writes, perform a RESTORE, write this command then perform a STORE/RESTORE. Data Length in Bytes: User defined Data Format: ASC Type: Block R/W Default Value: Null Units: N/A LEGACY_FAULT_GROUP (A8h) Definition: Sets which rail DDC IDs should be listened to for fault spreading with legacy devices. The data sent is a 4-byte, 32-bit, bit vector where every bit represents a rail’s DDC ID. A bit set to 1 indicates a device DDC ID to which the configured device will respond upon receiving a fault spreading event. In this vector, Bit 0 of byte 0 corresponds to the rail with DDC ID 0. Following through, Bit 7 of byte 3 corresponds to the rail with DDC ID 31. Data Length in Bytes: 4 Data Format: BIT Type: Block R/W Default Value: 00000000h (No rail ID specified) FN8931 Rev.1.00 Jan 4, 2018 Page 61 of 81 ISL8274M 7. PMBus Commands Description USER_DATA_00 (B0h) Definition: Sets user defined data. The sum total of characters in MFR_ID, MFR_MODEL, MFR_REVISION, MFR_LOCATION, MFR_DATE, MFR_SERIAL, and USER_DATA_00 plus one byte per command cannot exceed 128 characters. This limitation includes multiple writes of this command before a STORE command. To clear multiple writes, perform a RESTORE, write this command then perform a STORE/RESTORE. Data Length in Bytes: User defined Data Format: ASC Type: Block R/W Default Value: Null Units: N/A ISENSE_CONFIG (D0h) Definition: Configures current sense circuitry. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 06h (256ns current sense blanking time, current sense high range) Units: N/A Bit Field Name 7:4 Reserved 3:2 Current Sense Blanking Time 1:0 Current Sense Range FN8931 Rev.1.00 Jan 4, 2018 Value Setting Description 0000 00 192ns 01 256ns 10 412ns Sets the blanking time current sense blanking time. 11 640ns 00 Low Range ±25mV 01 Mid Range ±35mV 10 High Range ±50mV 11 Not Used Page 62 of 81 ISL8274M 7. PMBus Commands Description USER_CONFIG (D1h) Definition: Configures several user-level features. This command overrides the pin-strap settings. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 84h (Pin-strap setting for ASCR on Start up; ramp-up and ramp-down minimum duty cycle 0.39%; minimum duty cycle control enabled; PG is an open-drain output.) Units: N/A Bit 7 Field Name ASCR on for Start up Value Setting Description 0 Disabled ASCR is disabled for start up. Use this for Current Sharing mode. 1 Enabled ASCR is enabled for start up. Use this for Stand Alone mode. 6:5 Reserved 00 4:3 Ramp-up and Ramp-down Minimum Duty Cycle 00 0.39% 01 0.78% 10 1.17% 11 1.56% Minimum Duty Cycle Control 0 Disable 1 Enable Power-good Pin Configuration 0 Open Drain 1 Push-Pull Reserved 0 2 1 0 Reserved Sets the minimum duty-cycle during start-up and shutdown ramp. Control for minimum duty cycle. 0 = PG is an open-drain output. 1 = PG is a push-pull output. DDC_CONFIG (D3h) Definition: Configures DDC addressing and current sharing. The DDC rail ID is set according to the SMBus address. For current sharing applications, the DDC Phase ID is set according to the number of phases. The device position and number of devices in the rail can be programmed as needed. Data Length in Bytes: 2 Data Format: BIT Type: R/W Default Value: Pin-strap setting for Rail ID. Phase ID = 0; Phases in rail = 1 Units: N/A Bit Field Name 15:13 Phase ID 12:8 Rail ID 7:3 Reserved 2:0 Phases in Rail FN8931 Rev.1.00 Jan 4, 2018 Value Setting 0 to 7 Sets the phase ID in a current sharing rail. 0 to 31 (00 to 1Fh) 0 0 to 7 Description Configures DDC rail ID Reserved Reserved Identifies the number of phases on the same rail (+1). Page 63 of 81 ISL8274M 7. PMBus Commands Description POWER_GOOD_DELAY (D4h) Definition: Sets the delay applied between the output exceeding the PG threshold (POWER_GOOD_ON) and asserting the PG pin. The delay time can range from 0ms up to 500s, in steps of 125ns. A 1ms minimum configured value is recommended to apply proper debounce to this signal. Data Length in Bytes: 2 Data Format: L11 Type: R/W Default Value: C300h, 3ms Units: ms Range: 0ms to 5s ASCR_CONFIG (DFh) Definition: Allows user configuration of ASCR settings. ASCR gain is analogous to bandwidth, ASCR residual is analogous to damping. To improve load transient response performance, increase ASCR gain. To lower transient response overshoot, increase ASCR residual. Increasing ASCR gain can result in increased PWM jitter and should be evaluated in the application circuit. Excessive ASCR gain can lead to excessive output voltage ripple. Increasing ASCR residual to improve transient response damping can result in slower recovery times, but will not affect the peak output voltage deviation. Typical ASCR gain settings range from 50 to 1000, and ASCR residual settings range from 10 to 100. Data Length in Bytes: 4 Data Format: CUS Type: R/W Default Value: Pin-strap setting Bit 31:25 24 Purpose Data Format Unused ASCR Enable BIT Value Description 0000000h Unused 1 Enable 0 Disable 23:16 ASCR Residual Setting Integer ASCR residual 15:0 ASCR Gain Setting Integer ASCR gain FN8931 Rev.1.00 Jan 4, 2018 Page 64 of 81 ISL8274M 7. PMBus Commands Description SEQUENCE (E0h) Definition: Identifies the Rail DDC ID of the prequel and sequel rails when performing multi-rail sequencing. The device will enable its output when its EN or OPERATION enable states, as defined by ON_OFF_CONFIG, is set and the prequel device has issued a power-good event on the DDC bus. The device will disable its output (using the programmed delay values) when the sequel device has issued a power-down event on the DDC bus. The data field is a two-byte value. The most significant byte contains the 5-bit Rail DDC ID of the prequel device. The Least Significant Byte (LSB) contains the 5-bit Rail DDC ID of the sequel device. The Most Significant Bit (MSB) of each byte contains the enable of the prequel or sequel mode. This command overrides the corresponding sequence configuration set by the CONFIG pin settings. Data Length in Bytes: 2 Data Format: BIT Type: R/W Default Value: 0000h (Prequel and Sequel disabled) Bit Value Setting 0 Disable Disable, no prequel preceding this rail. 1 Enable Enable, prequel to this rail is defined by Bits 12:8. 0 Reserved 0-31 DDC ID Set to the DDC ID of the prequel rail. Sequel Enable 0 Disable Disable, no sequel following this rail. 1 Enable Enable, sequel to this rail is defined by Bits 4:0. 6:5 Reserved 0 Reserved 4:0 Sequel Rail DDC ID 0-31 DDC ID 15 Field Name Prequel Enable 14:13 Reserved 12:8 Prequel Rail DDC ID 7 FN8931 Rev.1.00 Jan 4, 2018 Description Reserved Reserved Set to the DDC ID of the sequel rail. Page 65 of 81 ISL8274M 7. PMBus Commands Description TRACK_CONFIG (E1h) Definition: Configures the voltage tracking modes of the device. Only one channel can be configured to track: Channel 1 or Channel 2. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: Pin-strap setting based on SS/TRACK Bit 7 6:3 Field Name Value Setting 0 Disable Tracking is disabled 1 Enable Tracking is enabled Voltage Tracking Control 0000 Reserved Tracking Ratio Control 0 100% Output tracks at 100% ratio of VTRK input 1 50% Output tracks at 50% ratio of VTRK input 1 Tracking Upper Limit 0 Target Voltage Output voltage is limited by target voltage 1 VTRK Voltage Output voltage is limited by VTRK voltage 0 Ramp-Up Behavior 0 Track after PG The output is not allowed to track VTRK down before power-good. 1 Track always 2 Reserved Description Reserved The output is allowed to track VTRK down before power-good. DDC_GROUP (E2h) Definition: Configures fault spreading group ID and enable, broadcast OPERATION group ID and enable, and Broadcast VOUT_COMMAND group ID and enable. Data Length in Bytes: 3 Data Format: BIT Type: Block R/W Default Value: Ignore Broadcast VOUT_COMMAND, OPERATION. Bits 23:22 Purpose Value Description Reserved 0 Reserved BROADCAST_VOUT_COMMAND Response 1 Responds to BROADCAST_VOUT_COMMAND with same Group ID. 0 Ignores BROADCAST_VOUT_COMMAND. 20:16 BROADCAST_VOUT_COMMAND Group ID 0-31d 15:14 Reserved 0 Reserved BROADCAST_OPERATION Response 1 Responds to BROADCAST_OPERATION with same Group ID. 0 Ignores BROADCAST_OPERATION. 21 13 12:8 BROADCAST_OPERATION Group ID 7:6 Reserved 0 Reserved POWER_FAIL Response 1 Responds to POWER_FAIL events with same Group ID by shutting down immediately. 0 Responds to POWER_FAIL events with same Group ID with sequenced shutdown. 5 4:0 POWER_FAIL group ID FN8931 Rev.1.00 Jan 4, 2018 0-31d Group ID sent as data for broadcast BROADCAST_VOUT_COMMAND events. 0-31d Group ID sent as data for broadcast BROADCAST_OPERATION events. Group ID sent as data for broadcast POWER_FAIL events. Page 66 of 81 ISL8274M 7. PMBus Commands Description DEVICE_ID (E4h) Definition: Returns the 16-byte (character) device identifier string. Data Length in Bytes: 16 Data Format: ASC Type: Block Read Default Value: Part number/Die revision/Firmware revision MFR_IOUT_OC_FAULT_RESPONSE (E5h) Definition: Configures the IOUT overcurrent fault response as defined by the following table. The command format is the same as the PMBus standard fault responses except that it sets the overcurrent status bit in STATUS_IOUT. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 80h (Disable, and no retry) Units: N/A Bit Field Name Value 7:6 Reserved 10 5:3 Retry Setting 000 001-110 111 2:0 Retry Delay 000-111 Description No retry. The output remains disabled until the fault is cleared. Not used. Attempts to restart continuously, without checking if the fault is still present, until it is commanded OFF (by the CONTROL pin or OPERATION command), bias power is removed, or another fault condition causes the unit to shut down. Retry delay time = (Value + 1)*35ms. Sets the time between retries in 35ms increments. Range is 35ms to 280ms. MFR_IOUT_UC_FAULT_RESPONSE (E6h) Definition: Configures the IOUT undercurrent fault response as defined by the following table. The command format is the same as the PMBus standard fault responses except that it sets the undercurrent status bit in STATUS_IOUT. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: 80h (Disable and no retry) Units: N/A Bit Field Name Value 7:6 Reserved 10 5:3 Retry Setting 000 001-110 111 2:0 Retry Delay FN8931 Rev.1.00 Jan 4, 2018 000-111 Description No retry. The output remains disabled until the fault is cleared. Not used. Attempts to restart continuously, without checking if the fault is still present, until it is commanded OFF (by the CONTROL pin or OPERATION command), bias power is removed, or another fault condition causes the unit to shut down. Retry delay time = (Value + 1)*35ms. Sets the time between retries in 35ms increments. Range is 35ms to 280ms. Page 67 of 81 ISL8274M 7. PMBus Commands Description IOUT_AVG_OC_FAULT_LIMIT (E7h) Definition: Sets the IOUT average overcurrent fault threshold. For down-slope sensing, this corresponds to the average of all the current samples taken during the (1-D) time interval, excluding the current sense blanking time (which occurs at the beginning of the 1-D interval). For up-slope sensing, this corresponds to the average of all the current samples taken during the D time interval, excluding the current sense blanking time (which occurs at the beginning of the D interval). This feature shares the OC fault bit operation (in STATUS_IOUT) and OC fault response with IOUT_OC_FAULT_LIMIT. Paged or Global: Paged Data Length in Bytes: 2 Data Format: Linear-11 Type: R/W Protectable: Yes Default Value: SYNC/OCP pin-strap setting Units: A Equation: IOUT_AVG_OC_FAULT_LIMIT = Y×2N Range: -100A to 100A IOUT_AVG_UC_FAULT_LIMIT (E8h) Definition: Sets the IOUT average undercurrent fault threshold. For down-slope sensing, this corresponds to the average of all the current samples taken during the (1-D) time interval, excluding the current sense blanking time (which occurs at the beginning of the 1-D interval). For up-slope sensing, this corresponds to the average of all the current samples taken during the D time interval, excluding the current sense blanking time (which occurs at the beginning of the D interval). This feature shares the UC fault bit operation (in STATUS_IOUT) and UC fault response with IOUT_ UC_FAULT_LIMIT. Paged or Global: Paged Data Length in Bytes: 2 Data Format: Linear-11 Type: R/W Protectable: Yes Default Value: DC40h (-30A) Units: A Equation: IOUT_AVG_UC_FAULT_LIMIT = Y×2N Range: -100A to 100A FN8931 Rev.1.00 Jan 4, 2018 Page 68 of 81 ISL8274M 7. PMBus Commands Description SYNC_CONFIG (E9h) Definition: Used to set options for SYNC output configurations. Data Length in Bytes: 1 Data Format: BIT Type: R/W Default Value: Pin-strap setting Settings Actions 00h Use internal clock. Clock frequency is set by pin-strap or PMBus command. 02h Use internal clock and output internal clock. 04h Use external clock. SNAPSHOT (EAh) Definition: A 32-byte read-back of parametric and status values. It allows monitoring and status data to be stored to flash following a fault condition. In case of a fault, last updated values are stored to the flash memory. When the SNAPSHOT STATUS bit is set stored, device will no longer automatically capture parametric and status values following fault till stored data are erased. Use the SNAPSHOT_CONTROL command to erase store data and clear the status bit before next ramp up. Data erased is not allowed when module is enabled. Data Length in Bytes: 32 Data Format: Bit field Type: Block Read Byte Number 31:23 22 Value PMBus Command Format Reserved Reserved 00h Flash Memory Status Byte FF - Not Stored 00 - Stored N/A BIT 21 Manufacturer Specific Status Byte STATUS_MFR_SPECIFIC (80h) Byte 20 CML Status Byte STATUS_CML (7Eh) Byte 19 Temperature Status Byte STATUS_TEMPERATURE (7Dh) Byte 18 Input Status Byte STATUS_INPUT (7Ch) Byte 17 IOUT Status Byte STATUS_IOUT (7Bh) Byte 16 VOUT Status Byte STATUS_VOUT (7Ah) Byte 15:14 Switching Frequency READ_FREQUENCY (95h) L11 13:12 Reserved Reserved 00h 11:10 Internal Temperature READ_INTERNAL_TEMP (8Dh) L11 9:8 Duty Cycle READ_DUTY_CYCLE (94h) L11 7:6 Highest Measured Output Current N/A L11 5:4 Output Current READ_IOUT (8Ch) L11 3:2 Output Voltage READ_VOUT (8Bh) L16u 1:0 Input Voltage READ_VIN (88h) FN8931 Rev.1.00 Jan 4, 2018 L11 Page 69 of 81 ISL8274M 7. PMBus Commands Description BLANK_PARAMS (EBh) Definition: Returns a 16-byte string indicating which parameter values were either retrieved by the last RESTORE operation or have been written since that time. Reading BLANK_PARAMS immediately after a restore operation allows the user to determine which parameters are stored in that store. A “1” indicates the parameter is not present in the store and has not been written since the RESTORE operation. Data Length in Bytes: 16 Data Format: BIT Type: Block Read Default Value: FF…FFh SNAPSHOT_CONTROL (F3h) Definition: Writing a 01h will cause the device to copy the current Snapshot values from NVRAM to the 32-byte Snapshot command parameter. Writing a 02h will cause the device to write the current Snapshot values to NVRAM. Writing a 03h will erase all Snapshot values from NVRAM. Write (02h) and Erase (03h) may only be used when the device is disabled. All other values will be ignored. Data Length in Bytes: 1 Data Format: Bit field Type: R/W byte Value Description 01h Read Snapshot values from NV RAM 02h Write Snapshot values to NV RAM 03h Erase Snapshot values stored in NV RAM. RESTORE_FACTORY (F4h) Definition: Restores the device to the hard coded factory default values and pin-strap definitions. The device retains the DEFAULT and USER stores for restoring. Security level is changed to Level 1 following this command. Data Length in Bytes: 0 Data Format: N/A Type: Send byte Default Value: N/A Units: N/A MFR_VMON_OV_FAULT_LIMIT (F5h) Definition: Reads the VMON OV fault threshold. Data Length in Bytes: 2 Data Format: L11 Type: Read only Default Value: CB00h (6V) Units: V Range: 4V to 6V FN8931 Rev.1.00 Jan 4, 2018 Page 70 of 81 ISL8274M 7. PMBus Commands Description MFR_VMON_UV_FAULT_LIMIT (F6h) Definition: Reads the VMON UV fault threshold. Data Length in Bytes: 2 Data Format: L11 Type: Read only Default Value: CA00h (4V) Units: V Range: 4V to 6V MFR_READ_VMON (F7h) Definition: Reads the VMON voltage. Data Length in Bytes: 2 Data Format: L11 Type: Read only Default Value: N/A Units: V Range: 4V to 6V VMON_OV_FAULT_RESPONSE (F8h) Definition: Reads the VMON OV fault response. Data Length in Bytes: 1 Data Format: BIT Type: Read only Default Value: 80h (Disable and no retry) Units: N/A VMON_UV_FAULT_RESPONSE (F9h) Definition: Reads the VMON UV fault response, which is a direct copy of VIN_UV_FAULT_RESPONSE. Data Length in Bytes: 1 Data Format: BIT Type: Read only Default Value: 80h (Disable and no retry) Units: V FN8931 Rev.1.00 Jan 4, 2018 Page 71 of 81 ISL8274M 8. 8. Firmware Revision History Firmware Revision History Table 8. ISL8274M Nomenclature Guide Firmware Revision Code ISL8274M-0-G0100 FN8931 Rev.1.00 Jan 4, 2018 Change Description Note Initial Release Page 72 of 81 FN8931 Rev.1.00 Jan 4, 2018 All dimensions are in millimeters. Represents the basic land grid pitch. These 42 I/Os are centered in a fixed row and column matrix at 1.0mm pitch BSC. Dimensioning and tolerancing per ASME Y14.5-2009. Tolerance for exposed PAD edge location dimension on page 3 is ±0.1mm. 2. 3. 4. 5. SIDE VIEW 1. NOTES: MAX 0.025 0.08 C 7.50 MAX C SEATING PLANE 2 1.00 0.10 M C A B 0.05 M C 0.100 R REF TERMINAL TIP 3 42 x 0.60 ± 0.05 3 42 x 0.60 ± 0.05 0.40 REF 0.10 M C A B 22.60 ± 0.15 12.00 DETAIL A BOTTOM VIEW 0.10 M C A B 17.20 16.00 18 17 16 151413 12 11 10 9 8 7 6 5 4 3 2 1 DATUM A A B C D E F G H J K L M N P R T U V W Y AA AB AC 1.00 2 0.20 REF 0.20 REF DATUM B PIN A1 INDICATOR C = 0.35 SEE DETAIL A Package Outline Drawing 0.10 C TOP VIEW 0.10 C 2X B 23.00 A 9. 0.10 C 2X TERMINAL #A1 INDEX AREA (9x11.5) 18.00 ISL8274M 9. Package Outline Drawing For the most recent package outline drawing, see Y58.18x23. Y58.18x23 58 I/O 18mmx23mmx7.5mm CUSTOM HDA MODULE Rev 3, 12/16 Page 73 of 81 2.60 1.60 (2X) 5.30 (2X) 2.10 (2X) 1.10 (2X) 1.60 (2X) 1.00 (2X) 3.50 (2X) 4.80 (2X) 6.40 0.60 5.60 6.20 4.00 (2X) 4.20 3.40 SIZE DETAILS FOR THE 16 EXPOSED PADS 7.40 5.60 1.40 (2X) 4.40 3.60 BOTTOM VIEW Pad Details 2.20 2.20 5.00 (2X) 2.00 (2X) 0.80 (2X) 1.10 1.30 2.30 4.60 4.40 1.60 (2X) 11.30 9.30 8.10 6.00 2.70 3.30 4.00 1.70 0.70 0.30 9.70 2.90 2.30 1.30 0.30 0.70 2.30 1.70 2.00 1.30 3.30 7.70 6.70 6.30 5.70 5.30 4.30 3.70 2.70 5.50 4.70 6.50 7.30 8.70 9.70 9.30 9.10 11.30 0.80 4.20 5.80 5.40 8.80 8.60 7.80 7.20 7.20 5.20 4.80 4.60 2.80 2.20 TERMINAL AND PAD EDGE DETAILS 3.80 6.20 6.60 7.00 1.00 (2X) 0.00 1.20 0.20 0.40 3.80 3.20 3.00 2.60 0.80 0.20 1.80 1.20 0.50 0.20 0.80 1.80 3.20 3.80 3.60 0.50 1.20 1.80 2.20 2.80 2.40 2.00 1.00 (2X) 4.40 4.20 4.80 5.20 5.20 8.20 7.20 7.80 5.80 6.20 6.80 6.00 6.50 8.30 (2X) 8.80 8.60 FN8931 Rev.1.00 Jan 4, 2018 6.40 9.30 11.30 9.30 8.10 6.00 4.00 2.30 0.00 1.30 4.30 3.70 9.70 8.50 6.30 5.10 2.90 1.00 0.70 2.00 7.70 7.30 6.70 6.30 6.50 5.70 5.50 5.30 4.70 9.10 9.70 11.30 ISL8274M 9. Package Outline Drawing Page 74 of 81 7.510 7.830 8.640 8.960 9.730 9.770 10.090 11.270 11.500 6.330 0.000 2.030 3.910 3.590 5.470 6.530 8.130 7.810 1.390 1.710 2.500 2.820 3.895 4.215 5.290 5.610 6.400 6.720 7.510 7.830 8.770 9.000 9.000 8.770 8.450 7.830 7.510 6.720 6.400 5.610 5.290 4.215 3.895 2.820 2.500 1.710 1.390 0.530 0.000 0.530 0.000 0.230 0.770 1.230 1.910 2.230 2.910 3.230 3.910 4.230 4.910 5.230 5.910 6.230 6.910 7.660 7.340 6.430 5.970 5.240 4.920 4.190 3.870 3.140 2.820 2.090 STENCIL OPENING EDGE POSITION - 1 9.000 11.500 2.715 3.285 1.285 0.715 0.285 0.000 0.285 0.715 1.285 9.285 8.715 8.285 7.715 7.285 6.715 6.285 5.715 5.285 4.715 4.285 3.715 11.500 Stencil Potition 1 and 2 9.490 9.730 9.810 11.270 11.500 7.790 8.110 6.330 0.000 2.030 3.910 3.590 5.470 6.530 8.130 7.810 9.730 9.410 11.500 11.270 7.785 7.215 6.785 6.215 5.785 5.215 4.785 4.215 3.785 3.215 2.785 2.215 1.785 1.215 0.785 0.215 0.000 0.215 0.785 1.215 1.785 2.215 2.785 3.215 3.785 4.215 4.785 5.215 5.785 6.215 6.785 6.215 6.785 7.215 7.785 1.215 1.785 1.785 1.215 0.000 4.785 4.215 3.785 3.215 STENCIL OPENING EDGE POSITION - 2 9.000 9.000 9.000 9.000 8.785 8.215 9.000 8.570 FN8931 Rev.1.00 Jan 4, 2018 9.730 9.410 11.500 11.270 11.500 9.285 8.715 8.285 7.715 7.285 6.715 6.285 5.715 5.285 4.715 4.285 3.715 3.285 2.715 2.285 1.715 1.285 0.715 0.285 0.000 0.285 0.715 1.285 1.715 2.285 2.715 3.285 11.500 ISL8274M 9. Package Outline Drawing Page 75 of 81 11.500 6.030 6.890 7.210 8.070 0.000 6.670 5.825 5.505 4.660 4.340 3.495 3.175 2.330 4.890 5.570 5.890 2.770 1.875 1.555 0.660 0.340 0.000 0.555 0.875 1.770 0.000 1.160 1.670 1.990 2.570 2.890 3.570 3.890 4.570 5.970 5.240 4.920 4.430 4.190 3.870 3.140 2.820 2.090 STENCIL OPENING EDGE POSITION - 3 9.000 9.000 11.500 11.500 Stencil Position 3 and 4 8.530 9.270 4.160 5.070 2.930 3.840 0.000 7.640 6.530 7.960 9.070 11.500 7.640 7.960 8.530 9.270 6.330 0.000 11.500 6.230 3.770 4.090 4.570 5.430 1.840 2.160 0.000 0.000 0.230 3.430 3.110 2.430 6.230 7.170 7.060 6.740 6.110 5.430 5.230 5.110 4.430 4.110 STENCIL OPENING EDGE POSITION - 4 9.000 8.570 9.000 7.170 6.970 7.230 9.000 8.570 9.000 9.000 FN8931 Rev.1.00 Jan 4, 2018 9.000 11.500 8.020 7.025 9.280 9.600 10.275 10.595 11.270 11.500 7.700 6.030 6.705 2.930 3.840 4.030 4.160 5.070 0.000 7.640 6.530 7.960 9.070 11.500 ISL8274M 9. Package Outline Drawing Page 76 of 81 6.570 9.280 9.600 10.275 10.595 11.270 11.500 6.030 6.705 7.025 7.700 8.020 5.070 4.030 2.270 1.030 3.760 4.080 4.810 5.130 5.860 6.180 6.910 3.030 0.000 2.030 1.770 0.430 0.000 4.910 4.430 3.570 STENCIL OPENING EDGE POSITION - 5 9.000 9.000 7.540 7.800 8.670 8.930 9.700 9.800 10.060 11.300 11.500 6.300 0.000 2.000 3.880 3.620 5.500 6.500 8.100 7.840 9.700 9.440 11.500 10.950 Stencil Position5 land pattern 1 11.500 6.030 6.890 7.210 8.070 0.000 11.500 5.320 5.580 6.430 6.690 7.540 7.800 8.800 9.000 3.925 4.185 4.185 3.925 2.790 2.530 1.680 1.420 0.500 0.000 0.500 1.420 1.680 2.530 2.790 0.000 0.200 0.800 1.200 1.940 2.200 2.940 3.200 3.940 4.200 4.940 5.200 5.940 6.200 6.940 9.000 8.800 8.450 7.800 7.540 6.690 6.430 5.580 5.320 7.630 7.370 6.400 6.000 5.210 4.950 4.160 3.900 3.110 2.850 2.060 PCB LAND PATTERN - 1 (FOR REFERENCE) 9.000 9.000 8.600 9.000 7.810 7.490 9.000 8.770 FN8931 Rev.1.00 Jan 4, 2018 0.000 11.500 11.300 11.500 7.820 8.080 9.520 9.700 9.780 6.300 0.000 2.000 3.880 3.620 5.500 6.500 8.100 7.840 9.700 9.440 11.500 11.300 ISL8274M 9. Package Outline Drawing Page 77 of 81 6.530 11.500 2.700 3.300 1.300 0.700 0.300 0.000 0.300 0.700 1.300 9.000 9.000 Land Pateer - 2 and 3 11.500 6.000 6.920 7.180 8.100 0.000 6.700 5.795 5.535 4.630 4.370 3.465 3.205 2.300 11.500 2.800 1.845 1.585 0.630 0.370 0.000 0.585 0.845 1.800 0.000 6.000 5.210 4.950 4.160 3.900 3.110 2.850 2.060 PCB LAND PATTERN - 3 (FOR REFERENCE) 1.060 1.700 1.960 2.600 2.860 3.600 3.860 4.600 4.860 5.600 5.860 6.600 9.000 9.000 3.200 3.800 4.200 4.800 1.800 1.200 0.000 4.800 4.200 3.800 3.200 0.000 0.200 0.800 1.200 1.800 9.000 8.800 8.200 7.800 7.200 9.000 6.800 6.200 5.800 5.200 4.800 4.200 3.800 3.200 2.800 2.200 1.800 1.200 0.800 0.200 0.200 0.800 1.200 1.800 2.200 2.800 3.200 3.800 4.200 4.800 5.200 5.800 6.200 6.800 6.200 6.800 7.200 7.800 PCB LAND PATTERN - 2 (FOR REFERENCE) 11.500 9.300 8.700 8.300 7.700 7.300 6.700 6.300 5.700 5.300 4.700 4.300 3.700 3.300 2.700 2.300 1.700 1.300 0.700 0.300 0.000 0.300 0.700 1.300 1.700 2.300 2.700 3.300 11.500 9.000 9.000 FN8931 Rev.1.00 Jan 4, 2018 9.300 8.700 8.300 7.700 7.300 6.700 6.300 5.700 5.300 4.700 4.300 3.700 11.500 11.500 9.300 7.670 7.930 8.500 6.300 0.000 11.500 ISL8274M 9. Package Outline Drawing Page 78 of 81 11.500 9.300 8.500 3.870 4.130 5.100 2.900 0.000 6.500 7.930 7.670 3.800 4.060 4.600 5.400 6.200 1.870 2.130 0.000 0.000 0.200 6.200 7.200 7.030 6.770 6.140 5.400 5.200 5.140 4.400 4.140 3.400 3.140 2.400 9.000 9.000 8.600 PCB LAND PATTERN - 4 (FOR REFERENCE) 9.000 8.600 9.000 7.200 7.000 7.200 9.310 9.570 10.305 10.565 11.300 11.500 9.310 9.570 10.305 10.565 11.300 11.500 Land Pateer - 4 and 5 6.000 6.735 6.995 7.730 7.990 5.100 4.000 2.300 1.000 0.000 11.500 6.000 6.735 6.995 7.730 7.990 2.900 3.870 4.000 4.130 5.100 0.000 6.500 7.930 7.670 9.100 11.500 3.000 3.790 4.050 4.840 5.100 5.890 6.150 6.940 0.000 0.400 0.000 2.000 1.800 3.600 4.940 4.400 6.500 PCB LAND PATTERN - 5 (FOR REFERENCE) 9.000 9.000 FN8931 Rev.1.00 Jan 4, 2018 9.100 11.500 11.500 8.100 6.000 6.920 7.180 0.000 11.500 ISL8274M 9. Package Outline Drawing Page 79 of 81 9.000 8.800 7.780 7.520 ISL8274M 10. Revision History 10. Revision History Rev. Date 1.00 Jan 4, 2018 0.00 Nov 28, 2017 FN8931 Rev.1.00 Jan 4, 2018 Description Fixed the note numbering for Table 2 on page 11. Added “ISENSE_CONFIG default setting” to test conditions and updated typical from 0.1 to 0.2 for the Output Current Read Back Resolution specification on page 13. Removed About Intersil section and updated disclaimer. Initial release Page 80 of 81 Notice 1. Descriptions of circuits, software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples. You are fully responsible for the incorporation or any other use of the circuits, software, and information in the design of your product or system. Renesas Electronics disclaims any and all liability for any losses and damages incurred by you or third parties arising from the use of these circuits, software, or information. 2. Renesas Electronics hereby expressly disclaims any warranties against and liability for infringement or any other claims involving patents, copyrights, or other intellectual property rights of third parties, by or arising from the use of Renesas Electronics products or technical information described in this document, including but not limited to, the product data, drawings, charts, programs, algorithms, and application examples. 3. No license, express, implied or otherwise, is granted hereby under any patents, copyrights or other intellectual property rights of Renesas Electronics or others. 4. You shall not alter, modify, copy, or reverse engineer any Renesas Electronics product, whether in whole or in part. Renesas Electronics disclaims any and all liability for any losses or damages incurred by 5. Renesas Electronics products are classified according to the following two quality grades: “Standard” and “High Quality”. The intended applications for each Renesas Electronics product depends on the you or third parties arising from such alteration, modification, copying or reverse engineering. product’s quality grade, as indicated below. "Standard": Computers; office equipment; communications equipment; test and measurement equipment; audio and visual equipment; home electronic appliances; machine tools; personal electronic equipment; industrial robots; etc. "High Quality": Transportation equipment (automobiles, trains, ships, etc.); traffic control (traffic lights); large-scale communication equipment; key financial terminal systems; safety control equipment; etc. Unless expressly designated as a high reliability product or a product for harsh environments in a Renesas Electronics data sheet or other Renesas Electronics document, Renesas Electronics products are not intended or authorized for use in products or systems that may pose a direct threat to human life or bodily injury (artificial life support devices or systems; surgical implantations; etc.), or may cause serious property damage (space system; undersea repeaters; nuclear power control systems; aircraft control systems; key plant systems; military equipment; etc.). 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Because the evaluation of microcomputer software alone is very difficult and impractical, you are responsible for evaluating the safety of the final products or systems manufactured by you. 8. Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product. You are responsible for carefully and sufficiently investigating applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive, and using Renesas Electronics products in compliance with all these applicable laws and regulations. Renesas Electronics disclaims any and all liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations. 9. 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