+1 (650) 494-6444
sales@pearsonelectronics.com

Wideband Current Monitors

Whether you are interested in observing and measuring submilliamp currents in a charged particle beam or thousands of amps resulting from a fault in a major power feeder, you will find a Pearson current monitor to suit your needs. The use of our patented distributed termination technique permits pulse-current monitoring of rise times as short as two nanoseconds. Our current sensor devices of larger inner diameter make possible high voltage current measurement without the risk of voltage breakdown. Several of our current transformer models feature double shielding for greater noise immunity and increased safety in high voltage applications. All models are sealed and are suitable for use in high voltage insulating oil or under vacuum. They can be connected to oscilloscopes, spectrum analyzers, power analyzers, digital voltmeters, analog-to-digital convertors, and a variety of other measuring instruments.

Model	Shape (Click to View)	Output (volts/ amp)	HoleId. (inches)	Time Domain Parameters				Frequency Domain Parameters
Model	Shape (Click to View)	Output (volts/ amp)	HoleId. (inches)	Max. Peak Curr. (amps)	Droop (%/msec.)	Useable Rise Time (nsec.)	IT Max. (amp-sec.)	Max. RMS Curr. (amps)	3dB pt. Low (Hz)	3dB pt. High (MHz)	I/f (peak amps /Hz)
2877	F	1.0	0.25	100	200	2	0.0004**	2.5	300	200	0.0025
4100	E	1.0	0.5	500	90	10	0.002**	5	140	35	0.006
2100	D	1.0	2.0	500	80	20	0.005**	7.5	125	20	0.017
6585	K	1.0	2.0	500	300	1.5	0.002**	10	400	250	0.008
6656	J	1.0	3.5	500	140	3.5	0.01**	10	200	120	0.04
3100*	C	1.0	3.5	500	40	50	0.03**	12	40	7	0.1
150	D	0.5	2.0	1,000	20	20	0.02**	15	40	20	0.07
6595	K	0.5	2.0	1,000	100	2.5	0.008**	20	100	200	0.03
325*	C	0.25	3.5	2,000	100	30	0.09	60	160	10	0.6
2878	F	0.1	0.25	400	20	5	0.004**	10	30	70	0.025
410	E	0.1	0.5	5,000	60	20	0.25	50	120	20	1.7
411	E	0.1	0.5	5,000	0.9	20	0.2**	50	1	20	0.6
3972	l	0.1	1.0	5000	1	20	0.2	50	1	20	0.6
110	D	0.1	2.0	5,000	0.8	20	0.5**	65	1	20	1.5
110A†	D	0.1	2.0	10,000	0.8	20	0.5**	65	1	20	1.5
6600	K	0.1	2.0	2,000	15	5	0.04**	40	25	120	0.12
310*	C	0.1	3.5	5,000	20	40	0.6	140	40	10	3.6
1010*	A	0.1	10.75	5,000	250	50	0.7**	120	400	7	4.4
1025	D	0.025	2.0	20,000	100	100	0.5	100	160	4	3.0
3025*	C	0.025	3.5	20,000	4	100	3.0	325	7	4	20.0
2879	F	0.01	0.25	2,000	2	20	0.04**	25	3	20	0.25
5046	E	0.01	0.5	25,000	0.3	20	0.5**	100	0.5	20	3.0
101	D	0.01	2.0	50,000	0.1	100	2.5**	200	0.25	4	12.0
4997	D	0.01	2.0	20,000	0.3	25	1.0**	150	0.5	15	3.5
301X*	C	0.01	3.5	50,000	3	200	22.0	400	5	2	140.0
1080*†	C	0.005	3.5	200,000	2.0	250	25	750	3.0	1.5	150
1330*	C	0.005	3.5	100,000	1.0	250	65	1400	0.9	1.5	400
4418	D	0.001	2.0	200,000	0.05	200	6.0**	400	0.7	2	40
1423*	C	0.001	3.5	500,000	0.7	300	75	2500	1.0	1.2	450
2093*	B	0.001	4.75	500,000	0.09	2000	1200	2500	0.15	0.2	7500

Accuracy +1/-0% of initial pulse amplitude for all models, with a high impedance load such as 1 megohm in parallel with 20 pF. A 50 ohm termination will reduce the output to half.

Note:

     * are double shielded and are recommended for high voltage or high noise environments. The entries labeled
     **   may need a small dc bias current through the secondary for maximum current-time rating.
     †    Type N Connector

Supporting Documents

Documentation available to answer most technical questions provided below. Please contact us for any additional requirements.

Instruction Guides:

* EMI Current Probe Selection

* Current Monitor

* Clamp-On Current Monitors

Application Notes:

* How to Select a Current Monitor

* Performance Features

* Typical Applications

* Calibration

* Specifications

* External Termination

* Electrostatic Shielding

* Biasing

* Transient Limitation

* Phase Shift

* High Voltage Consideration

* Insertion Resistance

* Testing Procedure

* Droop Notes

* Inductance Effect

* Noise Suppression

* Rise Time

(650) 494-6444
sales@pearsonelectronics.com

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