SLVUC68 September   2021 TPSM5601R5H

 

  1.   Trademarks
  2. 1EVM Setup
  3. 2EVM Connectors and Test Points
  4. 3EVM Parameters
    1. 3.1 Maximum Output Current
    2. 3.2 Maximum VIN and VOUT Configurations
    3. 3.3 Switching Node Behavior
  5. 4Typical Performance
    1. 4.1 Typical Characteristics (VIN = 12 V)
    2. 4.2 Typical Characteristics (VIN = 24 V)
    3. 4.3 Typical Characteristics (VIN = 36 V)
    4. 4.4 Typical Characteristics (VIN = 48 V)
  6. 5Feature Description
    1. 5.1 Enable Pin (EN)
    2. 5.2 Power-Good Pin (PGOOD)
    3. 5.3 System Loop Stability
  7. 6Layout
    1. 6.1 PCB Layout
  8. 7Schematic
  9. 8Bill of Materials (BOM)
  10.   Device Support
    1.     Related Documentation
    2. 9.1 Support Resources

1 EVM Setup

Figure 1-1 highlights the user interface items associated with the EVM. The VIN Power terminal block (J1) is used for connection to the host input supply and the –VOUT Power terminal block (J4) is used for connection to the load. These terminal blocks accept up to a 16-AWG wire.

Figure 1-1 EVM User Interface
  • Use the VIN S+ and VIN S– test points along with the –VOUT Sense and GND Sense test points located near the power terminal blocks as voltage monitoring points where voltmeters can be connected to measure VIN and –VOUT. Do not use the monitoring test points as the input supply or output load connection points. The PCB traces connecting to these test points are not designed to support high currents.
  • Use the VIN scope test points (J2) and –VOUT scope test points (J3) to monitor VIN and –VOUT waveforms with an oscilloscope. Use these jumpers with the tip-and-barrel method. The two sockets of each test point are on 0.1-in centers. Connect the scope probe tip to the upper socket pin labeled "•" and connect the scope ground lead to the lower socket pin.
  • The control test points located near the bottom and top left of the EVM test the features of the device. Refer to Table 2-1 for more information on the individual control test points.
  • The –VOUT Select jumper (J5) is provided to select the desired negative output voltage:
    • –2.5 V
    • –3.3 V
    • –5 V
    • –12 V
    • –15 V
    Before applying power to the EVM, make sure that the jumper is present and properly positioned for the intended output voltage. Always remove input power before changing the jumper settings.
  • The device can be turned on or off using the system enable (SYS_EN) jumper (J6). Place the jumper in the ON position to enable the device or in the OFF position to disable the device. If the jumper is left open, the EVM will default to the OFF state. The undervoltage lockout (UVLO) can be set by populating resistors R8 and R9 located on the bottom side of the EVM. If the ENABLE/UVLO feature is not needed, remove resistor R9 from the board and place the jumper on the VIN_EN jumper (J7).
  • The power good (PGOOD) test point is available to monitor when a valid output voltage is present on the EVM. Additionally, the PG_PU pin is present as a convenient point to connect a pullup voltage for the PGOOD signal.
  • The frequency response test point (INJ) along with the –VOUT Sense test point is available to inject a sinusoidal signal into the system and measure the gain/phase response characteristics of the device.