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TPS84620EVM-692

TPS84620EVM-692

  • 厂商:

    BURR-BROWN(德州仪器)

  • 封装:

    Module

  • 描述:

    EVAL MODULE FOR TPS84620-692

  • 数据手册
  • 价格&库存
TPS84620EVM-692 数据手册
Using the TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 User's Guide Literature Number: SLVU415A August 2011 User's Guide SLVU415A – August 2011 TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module This user's guide contains background information for the TPS84620/621/320 and support documentation for the TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 evaluation module (TPS84x2xEVM-692). 1 Introduction The TPS84620 integrated power solution is designed to provide up to a 6-A output. The TPS84620 contains dual-voltage inputs for the power stage and control circuitry. The power stage input (PVIN) is rated for 1.6 V to 14.5 V whereas the control input (VIN) is rated for 4.5 V to 14.5 V. The TPS84x2xEVM-692 provides both inputs but is designed and tested with PVIN connected to VIN. Rated input voltage and output current range for the evaluation module are given in Table 1. 1.1 Features • • • • 1.2 Applications • • • • 1.3 Complete Integrated Power Solution Allows Small Footprint, Low-Profile Design Efficiencies Up To 96% Wide-Output Voltage Adjust 1.2 V to 5.5 V, with 1% Reference Accuracy Adjustable Switching Frequency Broadband and Communications Infrastructure Automated Test and Medical Equipment Compact PCI/PCI Express/PXI Express DSP and FPGA Point-of-Load Applications Background This evaluation module is designed to demonstrate the small printed-circuit-board areas that may be achieved when designing with the TPS84320/620/621 regulator. The TPS84x2xEVM-692 default output voltage is 3.3 V at a 630-kHz switching frequency. The high-side and low-side MOSFETs are incorporated inside the TPS84320/620/621 package along with the gate drive circuitry. The low drain-to-source on-resistance of the MOSFET allows the TPS84320/620/621 to achieve high efficiencies and helps keep the junction temperature low at high output currents. The compensation components are internal to the TPS84320/620/621, and external resistors and jumpers allow for adjustable output voltage and frequency adjustment. Additionally, the TPS84320/620/621 provides adjustable slow start, tracking, and undervoltage lockout inputs. The absolute maximum input voltage is 15 V for the TPS84x2xEVM-692. Table 1. Input Voltage and Output Current Summary EVM 2 INPUT VOLTAGE RANGE OUTPUT CURRENT RANGE TPS84320EVM-692 PVIN = VIN = 8 V to 14.5 V 0 A to 6 A TPS84620EVM-692 PVIN = VIN = 4.5 V to 14.5 V 0 A to 3 A TPS84621EVM-692 PVIN = VIN = 8 V to 14.5 V 0 A to 6 A TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated SLVU415A – August 2011 Submit Documentation Feedback Electrical Characteristics www.ti.com 2 Electrical Characteristics A summary of the TPS84620EVM-692 performance specifications is provided in Table 2. Specifications are given for an input voltage of 12 V and an output voltage of 3.3 V, unless otherwise specified. The ambient temperature is 25°C for all measurements, unless otherwise noted. Table 2. TPS84620EVM-692 Electrical and Performance Specification PARAMETER CONDITION Output Voltage 8 V ≤ PVIN = VIN ≤ 14.5 V, ILOAD ≤ ILOAD (max) Output Current 8 V ≤ PVIN = VIN ≤ 14.5 V MIN 5V 3.3 V 2.5 V 1.8 V 1.5 V 1.2 V TYP MAX 5.00 3.30 2.50 1.80 1.50 1.20 5.075 3.350 2.538 1.827 1.523 1.218 Volts – – 6.0 Amps – 12 – PVIN = VIN = 12 V, ILOAD = 6 A 5V 3.3 V 2.5 V 1.8 V 1.5 V 1.2 V Switching frequency PVIN = VIN = 12 V, ILOAD = 6 A 5V 3.3 V 3.3 V 2.5 V 2.5 V 1.8 V 1.8 V 1.5 V 1.5 V 1.2 V 1.2 V 780 780 630 630 530 630 480 630 480 580 480 Efficiency, end-to-end ILOAD = 6 A PVIN = VIN = 12 V PVIN = VIN = 5 V PVIN = VIN = 12 V PVIN = VIN = 5 V PVIN = VIN = 12 V PVIN = VIN = 5 V PVIN = VIN = 12 V PVIN = VIN = 5 V PVIN = VIN = 12 V PVIN = VIN = 5 V PVIN = VIN = 12 V spacer 5 V, 780 kHz 3.3 V, 780 kHz 3.3 V, 630 kHz 2.5 V, 630 kHz 2.5 V, 480 kHz 1.8 V, 630 kHz 1.8 V, 480 kHz 1.5 V, 630 kHz 1.5 V, 480 kHz 1.2 V, 580 kHz 1.2 V, 480 kHz 91% 89% 88% 87% 86% 83% 82% 81% 80% 79% 78% Output ripple voltage, peak-to-peak UNITS 4.925 3.250 2.462 1.773 1.477 1.182 mV kHz ±0.1% Line Regulation ±0.1% Load Regulation Load Transient Deviation 1 A/µs load step 50% to 100% ILOAD 60 mV Load Transient Recovery Time 1 A/µs load step 50% to 100% ILOAD 80 µs –40 Operating Temperature Slow Start 4 Tracking 0 to 1.2 0 to 1.8 Synchronization SLVU415A – August 2011 Submit Documentation Feedback 85 480 ms 0 to 5 780 TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated °C V kHz 3 Schematic Schematic 1 2 3 1 1 + 2 1 3 3 3 3 3 3 3 + 1 3 www.ti.com Figure 1. TPS84x2xEVM-692 Schematic 4 TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated SLVU415A – August 2011 Submit Documentation Feedback Modifications www.ti.com 4 Modifications These evaluation modules are designed to provide access to the features of the TPS84320/620/621. Some modifications can be made to these modules. 4.1 Output Voltage Setpoint Select the output voltage at J4. Use the silk screen to select the desired voltage preprogrammed on the module (see Figure 13. If a different voltage is needed, the RSET resistor (any of R2 thru R6 and R8) may be changed to a value listed in the component data sheet (TPS84620, TPS84621 and TPS84320). When all jumpers on J4 are open, the default output voltage for the components is selected. See Table 3. Table 3. Component Default Output Voltage 4.2 COMPONENT DEFAULT VOLTAGE TPS84620 NA, No Default Voltage TPS84320 0.8 V TPS84621 0.6 V Frequency Select The Switching frequency is selected at J11. Table 4 shows the selection options for each of the three evaluation modules. Table 4. Selection Options JUMPER POSITION TPS84620EVM-692 TPS84320EVM-692 TPS84621EVM-692 MIN 480 kHz 330 kHz 250 kHz 1 530 kHz 330 kHz 330 kHz 2 580 kHz 480 kHz 480 kHz 3 630 kHz 630 kHz 630 kHz MAX 780 kHz 780 kHz 780 kHz SLVU415A – August 2011 Submit Documentation Feedback TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated 5 Modifications 4.3 www.ti.com Slow Start Time The slow start time can be adjusted by changing the value of C8. See the slow start table in the (TPS84620, TPS84621 and TPS84320 data sheets for more information. The EVM is set for a slow start time of 2.8 ms (C8 = 4700 pF and J10 installed). 4.4 Track In The TPS84320/620/621 can track an external voltage during start-up. The J6 connector is provided to allow connection to an external voltage. Ratio-metric or simultaneous tracking can be implemented using the provided resistor dividers with J5. See the (TPS84620, TPS84621 and TPS84320 data sheets for details. 4.5 Adjustable UVLO The undervoltage lockout (UVLO) can be adjusted as described in the (TPS84620, TPS84621 and TPS84320 data sheets. The EVM provides two selectable UVLO setpoints using the provided resistor dividers and J8. J9 provides an inhibit input. 4.6 Input Voltage Rails The EVM is designed to accommodate different input voltage levels for the power stage and control logic. During normal operation, the PVIN and VIN inputs are connected using a jumper across J3 pins 2 and 3 (VIN = PVIN position). The single input voltage is supplied at J1. If desired, input voltage may be separated by moving the J3 jumper to pins 1 and 2 (VIN = VBIAS position). Dual input voltages must then be provided at both J1 and J2. 6 TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated SLVU415A – August 2011 Submit Documentation Feedback Test Setup www.ti.com 5 Test Setup This section describes how to properly connect, set up, and use the TPS84x2xEVM-692 evaluation module. 5.1 Input/Output Connections The TPS84x2xEVM-692 is provided with input/output connectors and test points as shown in Table 5. A power supply capable of supplying 4 A must be connected to J1 through a pair of 20 AWG wires. The jumper across J3 must be in place. See Section 4.6 for split input voltage rail operation. The load must be connected to J7 through a pair of 20 AWG wires. The maximum load current capability must be 6 A. Wire lengths must be minimized to reduce losses in the wires. Test-point TP1 provides a place to monitor the VIN input voltages with TP2 providing a convenient ground reference. TP4 is used to monitor the output voltage with TP12 as the ground reference. Table 5. EVM Connectors and Test Points REF DES LABEL J1 PVIN J2 VBIAS DESCRIPTION Primary VIN connector VBIAS input voltage input connector J3 VIN J7 VOUT Jumper used to connect VIN to PVIN. EVM default setting connects VIN to PVIN. VOUT connector J4 VADJ VOUT selection. Default VOUT is 3.3 V. J11 FREQ Switching frequency selection. Default frequency is 630 kHz. J6 TR_IN TRACK IN connector. J5 provides two divider settings. J5 SS_TR Track voltage select jumper. Used with J6. J9 INH_UVLO Enable jumper. Install shunt to inhibit the power supply. Selects UVLO for power supply turn on. Default setting is for 8-V UVLO. J8 INH_UVLO J10 STSEL TP1 PVIN TP3 VBIAS TP6 VIN TP4 VOUT VOUT circuit point TP2, TP12 GND Power grounds TP15 AGND Analog ground TP7 TR_IN Track input TP8 SS_TR Tracking input after divider Internal slow start select jumper. Install shunt for internal slow start. PVIN circuit point VBIAS circuit point VIN circuit point TP9 PWRGD Power good status TP14 RT/CLK SYNC input TP10 COMP Error amplifier output TP13 PH TP11 INH_UVLO TP5 SENSE+ SLVU415A – August 2011 Submit Documentation Feedback Switch node Inhibit and UVLO input VOUT remote sense node connected to J7 pin 2. TP5 can be used for measuring the loop response along with changing R1 to 49.9 Ω. TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated 7 Typical Performance Data 6 www.ti.com Typical Performance Data Figure 2 though Figure 12 present characteristic performance data taken from the TPS84620EVM-692 only. For data regarding the TPS84320EVM-692 and the TPS84621EVM-692 please see the TPS84320 and TPS84621 data sheet. 6.1 Efficiency vs Input Voltage 100 VO = 3.3 V 90 80 VI = 15 V VI = 12 V Efficiency - % 70 60 VI = 9 V 50 40 30 20 10 0 0 1 2 3 4 IL - Load Current - A 5 6 7 Figure 2. Efficiency vs Voltage at 25°C 6.2 Light-Load Efficiency vs Input Voltage 100 90 VO = 3.3 V 80 VI = 9 V Efficiency - % 70 VI = 12 V 60 50 VI = 15 V 40 30 20 10 0 0 0.05 0.1 0.15 IL - Load Current - A 0.2 0.25 Figure 3. Light-Load Efficiency vs Input Voltage at 25°C 8 TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated SLVU415A – August 2011 Submit Documentation Feedback Typical Performance Data www.ti.com 6.3 Efficiency vs Output Voltage/Frequency, PVIN = 12 V 100 PVIN = 12 V 90 80 5 V, 780 kHz 3.3 V, 630 kHz Efficiency - % 70 60 50 40 30 20 10 0 0 1 2 3 4 IL - Load Current - A 5 6 7 Figure 4. Efficiency vs Output Voltage at 25°C 6.4 Efficiency vs Output Voltage/Frequency, PVIN = 5 V 100 PVIN = 5 V 90 80 1.5 V, 480 kHz Efficiency - % 70 1.8 V, 480 kHz 1.2 V, 480 kHz 2.5 V, 480 kHz 60 50 40 30 20 10 0 0 1 2 3 4 IL - Load Current - A 5 6 7 Figure 5. Efficiency vs Output Voltage/Frequency at 25°C SLVU415A – August 2011 Submit Documentation Feedback TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated 9 Typical Performance Data 6.5 www.ti.com Output Voltage Load Regulation 0.1 3.3 V Load Regulation 0.08 Load Regulation - % 0.06 0.04 VI = 12 V 0.02 0 -0.02 -0.04 -0.06 -0.08 -0.1 0 1 2 3 4 IO - Output Current - A 5 6 7 Figure 6. Load Regulation at 25°C 6.6 Output Voltage Line Regulation 0.1 3.3 V Line Regulation 0.08 0.06 IO = 0 A Line Regulation - % 0.04 IO = 3 A 0.02 0 -0.02 IO = 6 A -0.04 -0.06 -0.08 -0.1 8 9 10 11 12 13 VI - Input Voltage - V 14 15 16 Figure 7. Line Regulation at 25°C 10 TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated SLVU415A – August 2011 Submit Documentation Feedback Typical Performance Data www.ti.com 6.7 3.3-V TPS84620EVM-692 Response to Load Transients Figure 8 shows the TPS84620EVM-692 response to load transients. The current step is from 1.5 A to 4.5 A at 12-V input. Total peak-to-peak voltage variation is as shown, including ripple and noise on the output. VOUT 50 mV/div (DC coupled with offset) IOUT 2 A/div (1.5 A to 4.5 A step) t - Time - 400 ms/div Figure 8. 3.3-V TPS84620EVM-692 Transient Response at 25°C 6.8 TPS84620EVM-692 Loop Response Figure 9 shows the TPS84620EVM-692 loop response. The unity gain bandwidth is 50 kHz, phase margin is 70 degrees, gain margin is 19 dB and the gain slope is –1. Figure 9. TPS84620EVM-692 Loop Response at 25°C SLVU415A – August 2011 Submit Documentation Feedback TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated 11 Typical Performance Data 6.9 www.ti.com TPS84620EVM-692 Voltage Ripple Figure 10 shows the TPS84620EVM-692 output voltage ripple when operating from 12 V with an output load of 6 A. 10 mV/div (DC coupled with offset) VOUT t - Time - ms/div Figure 10. TPS84620EVM-692 Output Voltage Ripple Figure 11 shows the TPS84620EVM-692 input voltage ripple when operating from 12 V with an output load of 6 A. 50 mV/div (AC coupled) PVIN PH 5 V/div (DC coupled with offset) t - Time - 1 ms/div Figure 11. TPS84620EVM-692 Input Voltage Ripple 12 TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated SLVU415A – August 2011 Submit Documentation Feedback Typical Performance Data www.ti.com 6.10 Power Up Figure 12 shows the TPS84620EVM-692 start-up waveforms with rising PVIN. In Figure 12, the output starts to rise when PVIN reaches the rising UVLO of 8 V. J9 can also be used to inhibit VOUT when PVIN is present. 5 V/div (DC coupled) PVIN 1 V/div (DC coupled with offset) SS_TR 2 V/div (DC coupled with offset) VOUT t - Time - 5 ms/div Figure 12. TPS84620EVM-692 Start-Up Waveforms With Rising PVIN SLVU415A – August 2011 Submit Documentation Feedback TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated 13 Board Layout/Assembly Drawing 7 www.ti.com Board Layout/Assembly Drawing This section provides a description of the TPS84x2xEVM-692, board layout, and layer illustrations. 7.1 Layout The board layout for the TPS84x2xEVM-692 is shown in Figure 14 through Figure 13. The topside layer of the EVM is laid out in a manner typical of a user application. The top, bottom, and internal layers are 2-oz. copper. A basic set of layout guidelines include: • Place the input capacitors close to the PVIN and PGND terminals. • Place the output capacitors close to the VO and PGND terminals. • AGND is a 0-Vdc reference for the analog control circuitry. Connect AGND to PGND at a single point. AGND terminal 45 provides a means to remove heat from the device and must be connected to an AGND plane with multiple vias as shown in the TPS84620 data sheet, (SLVSA43). • The SENSE+ pin (pin 44) provides a remote sense function for the device. Connect the SENSE+ pin to VO near the load. • Analog control pins: Connect the analog control pins (VADJ, RT/CLK, INH/UVLO, STSEL, and SS/TR) to AGND using the recommended circuit components. TEXAS INSTRUMENTS Figure 13. TPS84x2xEVM-692 Top-Side Layer and Assembly 14 TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated SLVU415A – August 2011 Submit Documentation Feedback Board Layout/Assembly Drawing www.ti.com Figure 14. TPS84x2xEVM-692 Layer 2 Figure 15. TPS84x2xEVM-692 Layer 3 SLVU415A – August 2011 Submit Documentation Feedback TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated 15 Board Layout/Assembly Drawing www.ti.com Figure 16. TPS84x2xEVM-692 Bottom-Side Layer and Assembly 7.2 Estimated Circuit Area The estimated printed-circuit board area for the components used in this design is 0.55 in2 (354 mm2). This area does not include test point or connectors. 16 TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated SLVU415A – August 2011 Submit Documentation Feedback List of Materials www.ti.com 8 List of Materials Table 6 presents the List of Materials for the TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692. Table 6. TPS84x2xEVM-692 List of Materials (1) (2) (3) (4) (5) (6) (1) (2) (3) (4) (5) (6) -003 -002 -001 2 2 2 C1, C2 REF DES Capacitor, ceramic, 16 V, X5R, 10%, 22 µF, 1210 DESCRIPTION GRM32ER61E226K PART NUMBER Murata MFR 0 0 0 C3 Capacitor, ceramic, 16 V, X5R, 10%, 22 µF, 1210 GRM32ER61E226K Murata 0 0 0 C13 Capacitor, polymer SMT, 6.3 V, -25 to 105°C, ±20%, 330 µF, 7343(D) T530D337M006ATE 006 Kemet 1 1 1 C4 Capacitor, polymer tantalum, 16 V, 20%, 68 µF, 7343(D) 16TQC68M Sanyo 3 3 3 C5, C6, C14 Capacitor, ceramic, 16 V, X7R, 10%, 0.1 µF, 0603 Std Std 0 0 0 C7 Capacitor, ceramic, 16 V, X7R, 10%, 0.1 µF, 0603 Std Std 1 1 1 C8 Capacitor, ceramic, 16 V, X7R, 10%, 4700 pF, 0603 Std Std C9, C10, C11, C12 Capacitor, ceramic, 6.3 V, X5R, 10%, 47 µF, 1210 GRM32ER60J476M Murata D1 Diode, dual ultra fast, series, 200 mA, 70 V, BAV99, SOT23 BAV99 Fairchild BZT52C5V1S Diodes Inc. 4 4 4 0 0 0 1 1 1 D2 Diode, Zener, 200 mW, 5.1 V, SOD-323 2 2 2 J1, J2 Terminal block, 2 pin, 6 A, 3.5 mm, 0.27 inch x 0.25 inch ED555/2DS OST J11 Header, male 2x5 pin, 100-mil spacing, 0.100 inch x 5 inch x 2 inch PEC05DAAN Sullins J3, J5, J8 Header, male 3 pin, 100-mil spacing, 0.100 inch x 3 inch PEC03SAAN Sullins J4 Header, male 2x6 pin, 100-mil spacing, 0.100 inch x 2 inch x 6 inch PEC06DAAN Sullins J6, J9, J10 Header, male 2-pin, 100mil spacing, 0.100 inch x 2 inch PEC02SAAN Sullins J7 Terminal block, 2 pin, 15 A, 5.1 mm, 0.40 inch x 0.35 inch ED120/2DS OST R1 Resistor, chip, 1/10 W, -100/+600 ppm/°C, 0 Ω, 0603 Std Std 1 1 1 3 3 3 1 1 1 3 3 3 1 1 1 1 1 1 These assemblies are ESD sensitive, ESD precautions shall be observed. These assemblies must be clean and free from flux and all contaminants. Use of no clean flux is not acceptable. These assemblies must comply with workmanship standards IPC-A-610 Class 2. Ref designators marked with an asterisk ('**') cannot be substituted. All other components can be substituted with equivalent MFG's components. Install shunts in the following positions (Table 7): Install label after final wash. Text shall be 8 pt font. Text shall be per Table 8. SLVU415A – August 2011 Submit Documentation Feedback TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated 17 List of Materials www.ti.com Table 6. TPS84x2xEVM-692 List of Materials (1) (2) (3) (4) (5) (6) (continued) -003 -002 -001 1 1 1 R11 Resistor, chip, 1/16 W, 1%, 10 kΩ, 0603 Std Std 1 1 1 R12 Resistor, chip, 1/16 W, 1%, 68.1 kΩ, 0603 Std Std 1 1 1 R13 Resistor, chip, 1/16 W, 1%, 24.3 kΩ, 0603 Std Std 1 1 1 R14 Resistor, chip, 1/16 W, 1%, 12.1 kΩ, 0603 Std Std 0 0 1 R15 Resistor, chip, 1/16 W, 1%, 1 MΩ, 0603 Std Std 1 0 0 R15 Resistor, chip, 1/16 W, 1%, 536 kΩ, 0603 Std Std 0 0 1 R16 Resistor, chip, 1/16 W, 1%, 499 kΩ, 0603 Std Std 0 1 0 R16 Resistor, chip, 1/16 W, 1%, 332 kΩ, 0603 Std Std 1 0 0 R16 Resistor, chip, 1/16 W, 1%, 200 kΩ, 0603 Std Std 0 0 1 R17 Resistor, chip, 1/16 W, 1%, 332 kΩ, 0603 Std Std 0 1 0 R17 Resistor, chip, 1/16 W, 1%, 165 kΩ, 0603 Std Std 1 0 0 R17 Resistor, chip, 1/16 W, 1%, 121 kΩ, 0603 Std Std 0 0 1 R18 Resistor, chip, 1/16 W, 1%, 165 kΩ, 0603 Std Std 0 1 0 R18 Resistor, chip, 1/16 W, 1%, 110 kΩ, 0603 Std Std 1 0 0 R18 Resistor, chip, 1/16 W, 1%, 86.6 kΩ, 0603 Std Std 0 1 1 R2 Resistor, chip, 1/16 W, 1%, 274 Ω, 0603 Std Std 1 0 0 R2 Resistor, chip, 1/16 W, 1%, 196 Ω, 0603 Std Std 0 1 1 R3 Resistor, chip, 1/16 W, 1%, 453 Ω, 0603 Std Std 1 0 0 R3 Resistor, chip, 1/16 W, 1%, 316 Ω, 0603 Std Std 0 1 1 R4 Resistor, chip, 1/16 W, 1%, 665 Ω, 0603 Std Std 1 0 0 R4 Resistor, chip, 1/16 W, 1%, 453 Ω, 0603 Std Std 0 1 1 R5 Resistor, chip, 1/16 W, 1%, 1.13 kΩ, 0603 Std Std 1 0 0 R5 Resistor, chip, 1/16 W, 1%, 715 Ω, 0603 Std Std 0 1 1 R6 Resistor, chip, 1/16 W, 1%, 1.64 kΩ, 0603 Std Std 1 0 0 R6 Resistor, chip, 1/16 W, 1%, 953 Ω, 0603 Std Std 0 1 1 R8 Resistor, chip, 1/16 W, 1%, 2.87 kΩ, 0603 Std Std 1 0 0 R8 Resistor, chip, 1/16 W, 1%, 1.43 kΩ, 0603 Std Std 2 2 2 R7, R10 Resistor, chip, 1/16 W, 1%, 20 kΩ, 0603 Std Std 0 0 0 R6 Resistor, chip, 1/16 W, 1%, 0603 Std Std 1 1 1 R9 Resistor, chip, 1/16 W, 1%, 11.3 kΩ, 0603 Std Std 18 REF DES DESCRIPTION TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated PART NUMBER MFR SLVU415A – August 2011 Submit Documentation Feedback List of Materials www.ti.com Table 6. TPS84x2xEVM-692 List of Materials (1) (2) (3) (4) (5) (6) (continued) -003 -002 -001 REF DES DESCRIPTION PART NUMBER MFR 4 4 4 TP1, TP3, TP4, TP6 3 3 3 TP2, TP12, TP15 Test point, black, thru hole, 5011, 0.125 inch x 0.125 inch 5011 Keystone 3 3 3 TP5, TP10, TP13 Test point, orange, thru hole, 5013, 0.125 inch x 0.125 inch 5013 Keystone 5 Test point, white, thru hole, 5012, 0.125 inch x 0.125 inch Keystone 5 TP7, TP8, TP9, TP11, TP14 5012 5 0 0 1 U1 5-V Input, 6-A Sync. Buck, SWIFT Module, QFN TPS84620RUQ TI 0 1 0 U1 5-V Input, 3-A Sync. Buck, SWIFT Module, QFN TPS84320RUQ TI 1 0 0 U1 5-V Input, 6-A Sync. Buck, SWIFT Module, QFN TPS84621RUQ TI 4 4 4 Bumpon hemisphere 0.44 x 0.20 black SJ-5003 3M 5 5 5 Shunt, black, 100 mil 929950-00 3M 1 1 1 PCB, 3.5 inch x 2.5 inch x 0.062 inch HPA692 Any -- Test point, red, thru hole, 5010, 0.125 inch x 0.125 inch 5010 Keystone Table 7. REF DES PIN NUMBER J3 2-3 J4 3-4 J8, J10 1-2 J11 7-8 Table 8. ASSEMBLY NUMBER TEXT HPA692-001 TPS84620EVM-692 HPA692-002 TPS84320EVM-692 HPA692-003 TPS84621EVM-692 SLVU415A – August 2011 Submit Documentation Feedback TPS84320EVM-692, TPS84620EVM-692 and TPS84621EVM-692 Integrated Power Solution Evaluation Module Copyright © 2011, Texas Instruments Incorporated 19 Evaluation Board/Kit Important Notice Texas Instruments (TI) provides the enclosed product(s) under the following conditions: This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATION PURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use. Persons handling the product(s) must have electronics training and observe good engineering practice standards. As such, the goods being provided are not intended to be complete in terms of required design-, marketing-, and/or manufacturing-related protective considerations, including product safety and environmental measures typically found in end products that incorporate such semiconductor components or circuit boards. This evaluation board/kit does not fall within the scope of the European Union directives regarding electromagnetic compatibility, restricted substances (RoHS), recycling (WEEE), FCC, CE or UL, and therefore may not meet the technical requirements of these directives or other related directives. Should this evaluation board/kit not meet the specifications indicated in the User’s Guide, the board/kit may be returned within 30 days from the date of delivery for a full refund. THE FOREGOING WARRANTY IS THE EXCLUSIVE WARRANTY MADE BY SELLER TO BUYER AND IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE. The user assumes all responsibility and liability for proper and safe handling of the goods. Further, the user indemnifies TI from all claims arising from the handling or use of the goods. Due to the open construction of the product, it is the user’s responsibility to take any and all appropriate precautions with regard to electrostatic discharge. EXCEPT TO THE EXTENT OF THE INDEMNITY SET FORTH ABOVE, NEITHER PARTY SHALL BE LIABLE TO THE OTHER FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES. TI currently deals with a variety of customers for products, and therefore our arrangement with the user is not exclusive. 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TPS84620EVM-692
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