User`s guide
Table Of Contents
- User’s Guide
- 1 Getting Started
- 2 Introduction
- 3 Installation
- 4 Using EasyEXPERT
- 5 Classic Test Definition
- I/V Sweep
- Multi Channel I/V Sweep
- I/V List Sweep
- I/V-t Sampling
- C-V Sweep
- Direct Control
- Function Setup
- Auto Analysis Setup
- Display Setup
- SMU Range Setup Window
- ADC and Integration Time Setup Window
- Advanced Setup Window
- CMU Range Setup Window
- Advanced Setup Window for C-V Sweep
- Switching Matrix Control
- SPGU Control
- SPGU Pulse Setup Window
- Load Z Setup Window
- Pulse Switch Setup Window
- SPGU ALWG Setup Window
- Define ALWG Waveform Window
- 6 Application Test Definition
- 7 Function Details
- I/V Sweep Measurement
- Multi Channel I/V Sweep Measurement
- I/V-t Sampling Measurement
- C-V Sweep Measurement
- SPGU Module
- Sweep Abort Function
- Standby Function
- Bias Hold Function
- Current Offset Cancel
- SMU CMU Unify Unit
- Atto Sense and Switch Unit
- SMU/PG Selector
- SMU Ranging Mode
- SMU Compliance
- SMU Pulse
- SMU Measurement Time
- SMU Filter
- SMU Series Resistor
- Interlock Function
- Auto Power Off Function
- Initial Settings
- 8 Built-in Programming Tool
- 9 If You Have a Problem
- When You Operate B1500A
- When You Perform Measurement
- Measurement Takes More Time than Specified
- Noise Affects the Measured Values
- Voltage Measurement Error is Large
- SMU Oscillates for High-Frequency Device Measurements
- SMU Oscillates for Negative Resistance Measurements
- Large Current Causes High Temperature (Thermal Drift)
- Measurement Damages the Device under Test
- Leaving Connections Damages Devices after Measurement
- Unexpected Sampling Measurement Data is Returned
- MFCMU Causes Unbalance Condition
- Before Shipping to Service Center
- Data Backup and Recovery
- B1500A System Recovery
- Updating EasyEXPERT
- Error Codes
- 10 Application Library and Utilities
Agilent B1500 User’s Guide, Edition 7 3- 27
Installation
Mounting Connectors
Mounting Connectors
Previous sections described how to install the available accessories, and Agilent
16495 Installation Guide provides the information on how to install connector
plates on the shielding box. However, you may choose to mount connectors directly
on your own connector plate or test fixture.
To do this, you will need to make connector holes and mount the connectors
yoursel
f. This section contains information on connector hole dimensions.
To mount connectors:
1. Select the appropriate parts for your app
lication. See Table 3-5.
2. Make the holes and mount the connectors. See Table 3-6.
For Kelvin connections, use Agilent 16493K Kelvin triaxial cable. The Kelvin
triaxial cable requires a Kelvin tr
iaxial connector, which has two connector
holes and three screw holes.
3. Build the interlock circuit shown in “To Make an Interlock Circuit” on page
3-29.
4. Attach cables from the connectors to the DUT (device under test). See “To
Connect GNDU Output” on page 3-32, “To Connect SMU Output” on page
3-33, and “To Connect MFCMU Output” on page 3-39.