SLVUCD8 February   2022

 

  1.   Trademarks
  2. 1Introduction
    1. 1.1 Features
    2. 1.2 Applications
  3. 2EVM Setup and Quick Start Guide
  4. 3EVM Connectors and Test Points
  5. 4PCB Layouts
  6. 5Schematics
  7. 6Bill of Materials (BOM)

EVM Connectors and Test Points

Table 3-1 is a list of major connections on the board. For further information, see the relevant section in the TPS7H500x-SEP Radiation-Tolerant 2-MHz Current Mode PWM Controllers in Space Enhanced Plastic data sheet.

Table 3-1 EVM Board Connections
TEST POINT 5005 5006 5007 5008 CONNECTION DESCRIPTION
TP1, J1 OUTA Connected to the gate driver in the design. Components R5, C5 can be used to test different R/C loads.
TP2, J2 OUTB Connected to the gate driver in the design. Components R6, C6 can be used to test different R/C loads.
TP3, J3 SRA Connected to the gate driver in the design. Components R7, C7 can be used to test different R/C loads.
TP4, J4 SRB Connected to the gate driver in the design. Components R8, C8 can be used to test different R/C loads.
TP5, TP6 CS_LIM Input for current sense in the design. The CS_LIM circuit provides small triangle waveform from OUTA, OUTB. Note that this can load OUTA, OUTB causing a slow in the slew rate. If R9 and R10 are unpopulated, CS_LIM can be force from TP5.
TP7 VIN Voltage input for the TPS7H5001EVM-CVAL device
TP8 EN Enable pin for the TPS7H5001EVM-CVAL device, currently pulled high to VLDO
TP9 COMP Error amplifier output for the TPS7H5001EVM-CVAL, forcing this voltage runs the TPS7H5001EVM-CVAL in open loop.
TP10 REFCAP Internal reference for TPS7H5001EVM-CVAL
TP11, TP12 SS In a closed loop design, this slowly increases converter output voltage during start-up
TP13, TP15 SYNC Inputting a clock on this pin synchronizes the TPS7H5001EVM-CVAL to a frequency half of the input frequency
TP14 VLDO Internal voltage rail for device logic
TP20 VSENSE Voltage sense for the TPS7H5001EVM-CVAL. Connected to converter output voltage in the full design.
TP21 RSC Slope compensation selection resistor. Sets slope compensation slew rate internal to the device.
TP22 HICC Configurability for the hiccup time of the converter. While grounded through a resistor on the EVM, in a full design it is generally a capacitor.
TP23 FAULT A signal high on this node turns the TPS7H5001EVM-CVAL off for any fault condition needed
TP24 SP Configurability for the delay between the synchronous rectifiers and main output
TP25 RT Frequency select for the TPS7H5001EVM-CVAL. Change this to vary the frequency of the converter.
TP26 PS Configurability for the delay between the main output and synchronous rectifiers
TP27 LEB Configurability for the leading edge blanking time of the converter

Table 3-2 describes and lists the connections and configuration for J6. Use J6 to switch between different DCL connections to test different duty cycle limits. Pin 1 is noted by the dot next to the pin.

Table 3-2 J6 Connections and Configuration
PIN CONNECTION DUTY CYCLE LIMIT CONFIGURATION DESCRIPTION
Pin 1 and Pin 2 100% DCL is connected high to VLDO
Pin 2 and Pin 3 50% DCL is connected low to AVSS
Floating 75% DCL is left floating