LCR-T4 Transistor Tester Lithium Battery Mod

by LazyMars in Circuits > Tools

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LCR-T4 Transistor Tester Lithium Battery Mod

LCR-T4 Lithium Battery Modification - Schematic.jpg
LCR-T4 Lithium Battery Modification - PCB.jpg

A modification for the LCR-T4 transistor tester that replaces the 9V battery with a lithium cell and preserves the power-saving circuit

Supplies

  1. TP4056 lithium charger module with protection circuit
  2. A boost converter module capable of producing 9V output from a single lithium cell (e.g. MT3608 or TPS63070 boost converter module)
  3. A single-cell lithium-ion or lithium-polymer battery
  4. Wire and solder

Cut the PCB Traces

LCR-T4 Lithium Battery Modification - Cut Traces.jpg

Locate the 9015 PNP transistor on the bottom of the PCB. This transistor is part of the original power control circuit. Using a sharp knife, cut the traces running from its collector to both the LDO regulator and the voltage divider. This isolates the collector so the boost converter can be inserted in between.

Wire the Boost Converter

LCR-T4 Lithium Battery Modification - Boost Converter.jpg

Wire the boost converter module as follows:

  1. VIN to the 9015 collector
  2. VOUT to the LDO regulator input and the voltage divider
  3. GND to the 9V input negative rail

Pre-tune the boost converter output to 9V before installation by powering it from a bench supply and adjusting the trimmer potentiometer.

Connect the Battery to the TP4056 Module

LCR-T4 Lithium Battery Modification - Battery.jpg

Solder the lithium cell's positive and negative leads to the B+ and B− pads on the TP4056 module respectively.

Connect the TP4056 Output to the Tester

Wire the TP4056 module's OUT+ and OUT− pads to the tester's original 9V input positive and negative pads, replacing the 9V battery connection.

Done — Power It On!

Press the button and the tester should boot up as normal, now running on lithium power with the original auto-shutoff behavior fully preserved.

Drawback: No Lithium Battery Voltage Monitoring

The voltage display will always show the regulated boost converter output near 9V, so there is no way to monitor the actual lithium cell charge level. Connecting the voltage detection point directly to the lithium cell was attempted, but the tester has a minimum voltage threshold for startup and will refuse to boot at lithium cell voltages, making this approach unworkable. The TP4056's protection circuit handles undervoltage by cutting power at the cutoff threshold. The only indication of a depleted battery is that the tester simply won't turn on.