Application Notes
Have more questions on how our product will work for your application? IET offers a wide variety of additional literature to assist you.1888 Megohmmeter/High Resistance Meter application notes
- NEW Using Python for serial communication with the 1888 Megohmmeter/High Resistance Meter via USB
- NEW Use of the 1888 Megohmmeter with 1888-11 Resistivity Cell for volume and surface resistivity measurements
- NEW Remote Control of the 1888 via ethernet and NIMAX
- NEW Comparison of the 1888 Plus Megohmmeter/High Resistance Meter vs 1865 Plus Megohmmeter/IR Meter
1865 Application Notes
The 1888 Megohmmeter/High Resistance Meter can be substituted for 1865 Plus in most of these application notes.
- 1865+ Advantages over 1865-00
- Controlling the QuadTech 1865 and IET Labs 1865 Plus Megohmmeter via the RS-232 serial interface and NI Max
- A system to measure high resistance at voltages up to 6 kVdc
- 1865 and 1865 Plus with 1865-11 Resistivity Cell
- Testing Capacitors with the 1865 Megohmmeter / IR Tester
- Measuring Large Capacitors with the 1865-52 Component Test Fixture
- Measuring Insulation Resistance of Capacitors
- IR Testing Lithium Batteries for Medical Devices Using the 1865 Megohmmeter
- Connection of the 1865 Megohmmeter to a Resistivity Cell
- Adhesive Heat-Shrink IR Testing
- The 1865 Average Function
- The 1865 as a Current Meter
- 1865 Immersed cable reel test
1888, 1865 and 1865 Plus Megohmmeter papers other
- High resistance measurement circuit for fiber materials: Application to moisture content estimation (uses IET Labs VRS-100 High Resistance Standard and IET Labs 1865 Plus Megohmmeter as part of the system)
- Pressure-Induced Metallization of the Mott Insulator MnO (uses QuadTech/IET 1865 Megohmmeter to measure resistance)
- Pulse Capacitors for Next Generation Linear Colliders. Final Report (uses QuadTech/IET 1865 Megohmmeter to measure resistance)