LCR Meter – 11022/11025

11025-coil.jpg

Additional Information

Price

Product Description

0.1% basic accuracy
Transformer test parameters (11025), Turns Ratio, DCR, Mutual Inductance
0Hz, 60Hz, 100Hz, 120Hz, 1kHz, 10kHz, 20kHz, 40kHz, 50kHz, 100kHz test frequencies
21ms measurement time (=100Hz)
Agilent 4263B LCR Meter commands compatible
4 different output resistance modes selectable for non-linear inductor and capacitor measuring
High resolution in low impedance(0.01mO) and high accuracy 0.3% till 100mO range
Adjustable DC bias current up to 200mA (constant 25O) (11025)
1320 Bias Current Source directly control capability
0.01mO ~ 99.99MO wide measurement range (4 1/2 digits)
Dual frequency function (11022 option) for automatic production
BIAS comparator function
Comparator function and 8/99 bin-sorting function
Pass/fail judge result for automatic production
Handler interface trigger edge (rising/falling) programmable
Test signal level monitor function
Standard GPIB (IEEE-488) and handler interface, option RS 232 I/F
Open/short zeroing, load correction
LabView® Driver

Mas Detalles

The Chroma 11022 and 11025 LCR Meters are passive component testers that can give you the most cost effective alternative equivalent to the high priced meters. They are designed for the demanding applications in production test, incoming inspection, component design and evaluation. Programmable test signal level settings are from10mV to 1V in a step of 10mV, and the VM/IM signal level monitor functions allow you to evaluate your devices at the level you specify. Ten test frequencies of 50Hz, 60Hz, 100Hz, 120Hz, 1kHz, 10kHz, 20kHz, 40kHz, 50kHz, and 100kHz, can be used to evaluate passive components and transformers/ LF coils.

The low cost LCR meters on the market have shortcomings when used for low impedance components evaluation such as large capacitance of electrolytic capacitors and low inductance of coils. As the 11022/11025 equipped with high resolution (0.01m?) in low impedance and high accuracy (0.3%) till 100m? range, it can be used to evaluate low impedance components to meet the measurement requirements.