RIGOL RP1003C Current Clamp Probe User Guide

User Guide for RIGOL models including: RP1003C, 1004C, Current Clamp Probe, Clamp Probe, Current Probe, Probe

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manual

RIGOL RP1006C Current Probe, 500 A peak, DC to 2 MHz

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rp1006c-manual

User Guide

RP1003C/1004C/1005C/1006C Current Probe

Sept. 2020 RIGOL TECHNOLOGIES CO., LTD.

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Guaranty and Declaration
Copyright
© 2020 RIGOL TECHNOLOGIES CO., LTD. All Rights Reserved.
Trademark Information
RIGOL® is the trademark of RIGOL TECHNOLOGIES CO., LTD.
Publication Number
UGE19106-1110
Notices
RIGOL products are covered by P.R.C. and foreign patents, issued and pending.
RIGOL reserves the right to modify or change parts of or all the specifications and pricing policies at the company's sole decision.
Information in this publication replaces all previously released materials. Information in this publication is subject to change without notice. RIGOL shall not be liable for either incidental or consequential losses in
connection with the furnishing, use, or performance of this manual, as well as any information contained. Any part of this document is forbidden to be copied, photocopied, or rearranged without prior written approval of RIGOL.
Product Certification
RIGOL guarantees that this product conforms to the national and industrial standards in China as well as the ISO9001:2015 standard and the ISO14001:2015 standard. Other international standard conformance certifications are in progress.

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General Safety Summary

CAUTION This device is designed to comply with IEC 61010 Safety Standards, and has been thoroughly tested for safety prior to shipment. However, mishandling during use could result in injury or death, as well as damage to the device. Ensure that you understand the instructions and precautions in the manual before use.

Safety Terms and Symbols

Before using the device, be sure to carefully read the following safety notes.

The

symbol printed on the device indicates that the

user should refer to a corresponding topic in the manual

(marked with the function.

symbol) before using the relevant

In the manual, the

symbol indicates particularly

important information that the user should read before

using the device.

The

symbol printed on the device indicates that

only insulated conductors suited to the voltage of the

circuit under test can be measured.

The following symbols in this manual indicate the importance of cautions and

warnings.

Indicates that incorrect operation presents an extreme

DANGER

hazard that could result in serious injury or death to the user.

Indicates that incorrect operation presents a significant

WARNING hazard that could result in serious injury or death to the user.

CAUTION

Indicates that incorrect operation presents a possibility of injury to the user or damage to the device.

NOTE

Indicates advisory items related to performance or correct operation of the device.

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Contents
Guaranty and Declaration .................................................................... I General Safety Summary ....................................................................II Safety Terms and Symbols..................................................................II Safety Precautions ............................................................................. IV Service .............................................................................................. VII Current Probe Overview.......................................................................1
RP1003C/RP1004C Parts Overview ...................................................... 2 RP1005C/RP1006C Parts Overview ...................................................... 3 Parts Introductions ............................................................................ 4 To Use the Current Probe.....................................................................6 Preparations for Measurement ............................................................ 6 Demagnetizing and Zero Adjustment ................................................... 6 Measurement Procedure..................................................................... 8 Precautions for Measurement............................................................ 10 Specifications .....................................................................................14 RP1003C/RP1004C........................................................................... 14 RP1005C......................................................................................... 15 RP1006C......................................................................................... 16 Appendix.............................................................................................18 Appendix 1 Amplitude-frequency Characteristics ................................. 18 Appendix 2 Relation between Max Input Current and Frequency .......... 20 Appendix 3 Input Impedance (Typical) .............................................. 22

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Safety Precautions

DANGER 1. Do not measure around a bare conductor. Doing so may result in short-circuit or
electric shock. Take measurements at a location on an insulated wire where there is sufficient insulation for the circuit voltage.

2. When measuring current that contains high-frequency components, refer to Appendix 2 Relation between Max Input Current and Frequency. Never measure any current that exceeds the rated current.

3. Using the probe in strong high-frequency magnetic fields may cause the device to become abnormally hot, resulting in fire, equipment damage, or burns (see Specifications).

4. Observe the following to avoid electric shock and short circuit.
1) Connect the probe to the power adapter and waveform measurement instrument first, and then connect the probe to the active lines to be measured.
2) When the sensor is opened, do not short circuit the conductor being measured.
3) Be careful to avoid damaging the insulation surface while taking
measurements. 4) Before clamping the conductor being measured, make sure that the
insulation on the conductor is undamaged. Also, take care not to damage the insulation when clamping the conductor. Any damage to the insulation could cause an electric shock. 5) The probe is made for use with the RP1000P power adapter.
6) To prevent fire, avoid damage or burns of the measurement object/device, pay attention to the following cautions when measuring high-frequency currents or currents that contain high-frequency components: Eddy current loss may cause heating of the sensor head. Dielectric heating may cause heating of cord insulation and other materials.
7) The probe should only be connected to the secondary side of a breaker, so the breaker can prevent an accident if a short circuit occurs. Connections should never be made to the primary side of a breaker, because unrestricted current flow could cause a serious accident if a short circuit occurs.
8) Be sure to observe all operating precautions for the waveform measurement instrument and other measurement instruments to which the probe is connected.
9) When using a measurement instrument that does not provide isolation

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between its input terminals, chassis, or other input terminals, please pay attention to the following points. If a signal is applied to an input terminal other than that to which the probe is connected, do not connect the ground-side terminal of the signal to any non-ground potential. Otherwise, short-circuit current will flow through the RP1000P or the current probe from the ground terminal, which could cause an electrical accident or damage to the current probe.
×
RP1003C/RP1004C
×

RP1005C/RP1006C
WARNING 1. Do not allow the device to get wet, and do not take measurements with wet
hands. This may cause an electric shock.
2. Do not press the demagnetizing switch (DEMAG) to perform demagnetization while the conductor being measured is clamped. Doing so could damage the circuitry or cause an accident that might result in injury or death.
3. Ensure that the input does not exceed the maximum rated current to avoid device damage, short-circuiting and electric shock resulting from heat building.
4. To avoid electric shock when measuring live lines, wear appropriate protective gear, such as insulated rubber gloves, boots and a safety helmet.

CAUTION

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1. To avoid damage to the probe, protect it from vibration or shock during transport and handling, and be especially careful to avoid dropping.

2. This probe should be installed and operated indoors only, with temperature between 0°C and 40°C; relative humidity not greater than 80%.

3. Do not store or use the probe where it could be exposed to direct sunlight, high temperature, humidity, or condensation. Under such conditions, its performance specifications may be undermined as its insulation may deteriorate and even worse, the probe may be damaged.

4. This probe is not designed to be entirely water-proof or dust-proof. To avoid damage, do not use it in a wet or dusty environment.

5. The sensor head is a precision assembly that contains a molded component, a ferrite core, and a Hall effect element. It may be damaged if subjected to sudden changes at ambient temperature, or mechanical strain or shock, and therefore great care should be exercised in handling it.

6. The mating surfaces of the sensor head are precision ground, and should be
treated with care. If these surfaces are scratched, performance may be impaired.

7. Measurements are degraded by dirt on the mating surfaces of the sensor head, so keep the surfaces clean by gently wiping with a soft cloth.

8. Foreign substances such as dust on the mating surfaces of the sensor head can cause acoustic resonance (refer to the introduction about resonant sound) and degrade measurement, so it should be cleaned by gently wiping with a soft cloth.

9. To avoid damaging the sensor cable and power supply cable, do not bend or pull the cables.

10. Do not apply a static electricity or other source of high voltage to the sensor. Doing so may damage its internal Hall elements and circuitry.

11. To clean the probe, wipe it gently with a soft cloth moistened with water or mild detergent. Never use solvents such as benzene, alcohol, acetone, ether, ketones, thinners or gasoline, as they can deform and discolor the case.

12. When the power is on, keep the sensor closed, except when clamping it onto the conductor to be measured. The mating surface of the core section can be scratched while it is open.

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13. Keep the sensor head closed when not in use to avoid accumulating dust or dirt on the mating surfaces, as dust accumulation could undermine its clamp performance.
14. Avoid stepping on or pinching the cable to prevent damaging the cable insulation.
15. Keep the cables far away from heat sources, as bare conductors could be exposed if the insulation melts.
NOTE Correct measurement may be impossible in the presence of strong magnetic fields, such as near transformers and high-current conductors, or in the presence of strong electromagnetic fields such as near radio transmitters.
Service
When sending the probe for repair, pack carefully to prevent damage during transportation. Keep the cushioning materials within the package to avoid the probe to be damaged. Be sure to include details of the problem. RIGOL shall not be responsible for damage that occurs during shipment.
A regular calibration is necessary in order to ensure the accuracy performance of the probe. If you need to calibrate the current probe, contact RIGOL.

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Current Probe Overview
This current probe can be directly connected to a BNC input connector of a waveform measuring instrument. By clamping the sensor head onto a conductor to be measured, the probe can easily capture the current waveforms.
Main Features: Highly accurate current detection Easy current measurement Broadband frequency characteristics
RP1003C: DC to 50 MHz RP1004C: DC to 100 MHz RP1005C: DC to 10 MHz RP1006C: DC to 2 MHz RP1003C/RP1004C: Compact design, permits measurement of low current levels RP1005C/RP1006C: Large diameter allows high-current measurements Easy protect function at excessive input Unique thin film Hall effect element

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RP1003C/RP1004C Parts Overview

Current Direction Indication

Sensor

Terminator 3 6

"UNLOCK" Indication

2 Sensor Cable

Power Supply

Cable

5
Figure 1 RP1003C/RP1004C Parts
For the parts from 1 to 7 noted in the above figure, please refer to Parts Introductions.

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RP1005C/RP1006C Parts Overview

Current Direction

Indication

"LOCK" Indication

Terminator 3 6

RIGOL

1 2

Sensor

Power Supply Cable

Sensor Cable

"UNLOCK" Indication
Figure 2 RP1005C/RP1006C Parts
For the parts from 1 to 7 noted in the above figure, please refer to Parts Introductions.

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Parts Introductions
1. Opening lever It is used to open and lock the current sensor. You are recommended to lock the current sensor when measuring the conductor to be measured to avoid danger. For RP1003C/RP1004C, there are OPEN, FREE and LOCK indications on one side of the slide switch. The on/off status of the current sensor is related to the position of the slide switch. When the slide switch is in the OPEN position, the current sensor is open and at this point, the conductor to be measured can be connected to the current sensor; When the slide switch is in the FREE position, the current sensor is closed but not locked; When the slide switch is in the LOCK position, the current sensor is locked and at this point, the UNLOCK indication is covered (cannot be seen). For RP1005C/RP1006C, there are LOCK and UNLOCK indications on the slide switch. The current sensor is locked when the LOCK indication is displayed on the slide switch (the UNLOCK indication disappears).
2. Sensor head This clamps the conductor being measured, and carries out the actual current measurement. It is a precision assembly that contains a molded component, a ferrite core, and a Hall effect element. It may be damaged if subjected to sudden changes at ambient temperature, or mechanical strain or shock, and therefore great care should be exercised in handling it.
3. Demagnetizing switch (DEMAG) This demagnetizes the core if it has been magnetized by switching the power on and off, or by an excessive input. Always carry out demagnetizing before measurement. The demagnetizing process takes about one second (RP1003C/RP1004C) or three seconds (RP1005C/RP1006C). During demagnetizing, a demagnetizing waveform is output.
4. Zero adjustment dial (ZERO ADJ) Use the zero adjustment dial to correct the voltage offset or temperature drift on the device. When beginning the measurement, always carry out zero adjustment after demagnetizing.
5. Coarse adjustment trimmer (Only for RP1003C/RP1004C) Use this only when adjustment is not possible within the range of the zero adjustment dial. Use a nonconductive screwdriver (e.g. ceramic driver) for adjustment.

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6. Output connector The current waveform of the measured conductor is output at a constant rate. The output connector can be connected to the BNC input connector of the waveform measuring instrument. NOTE Since the output resistance is 25 (RP1003C/RP1004C) or 7 (RP1005C/RP1006C), the probe must be used with a waveform measurement instrument that has an input impedance of at least 1 M. Accurate measurement is not possible with the waveform measurement instrument whose input impedance is 50 . If using BNC-banana plug adapters or similar to connect to input terminals other than BNC connectors, make sure the polarity is correct. Turn the collar until it clicks, and check that it is locked securely.
7. Power plug Connect this to the power supply receptacle to supply power to the sensor terminator.

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To Use the Current Probe
Before using the current probe, make sure to refer to Safety Precautions.
Preparations for Measurement
1. Prepare one RP1000P power supply and one waveform measurement instrument for waveform measurement. CAUTION Before turning the power supply on, make sure that the voltage matches that indicated on the rear panel of the RP1000P. Connection to an improper supply voltage may damage the RP1000P and present an electrical hazard.
2. Turn the power switch off and connect the power cord.
3. Connect the power plug of the current probe to the power receptacle of the RP1000P.

4. Turn the RP1000P power switch on, and check that the front panel power indicator lights on.
5. Wait at least 30 minutes after turning on the current probe. Immediately after power is supplied, offset drift may increase due to the effects of self-heating of the device and other factors. To ensure accurate measurement, wait at least 30 minutes after turning on the current probe before performing the measurement.

Demagnetizing and Zero Adjustment

1. With the waveform measurement instrument input at ground, adjust the trace to the zero position.
2. Set the input coupling of the waveform measurement instrument to DC.
3. Connect the output connector of the current probe to the input connector of the

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waveform measurement instrument. Turn the collar until it clicks, and check that it is locked securely.
Collar

CAUTION When disconnecting the output connector from the waveform
measurement instrument, be sure to release the lock before pulling out the connector. Forcibly pulling out the connector without releasing the lock, or pulling the cable, can damage the terminator. If using BNC-banana plug adapters or similar to connect to input terminals other than BNC connectors, make sure the polarity is correct. Do not demagnetize while the current probe is clamping a conductor to be measured. Demagnetizing causes current to flow into the conductor, which may damage parts in the circuit to be measured.

Demagnetizing

RP1003C/RP1004C Demagnetizing

RP1005C/RP1006C
Check that the conductor being measured is not clamped when supplying power to the current probe for the same reason. Demagnetized waveforms are generated when supplying electric power.
4. Make sure the current sensor is locked (for RP1003C and RP1004C, the slide switch should be in the LOCK position; for RP1005C/RP1006C, LOCK should be displayed on the slide switch and UNLOCK should disappear).
5. Press the demagnetizing switch (DEMAG) on the terminator.
6. Turn the zero adjustment dial on the terminator to adjust the trace to the zero position.

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NOTE For RP1003C/RP1004C, if zero adjustment is not possible in Step 6, turn the coarse adjustment trimmer to bring the trace within the range of adjustment by the zero adjustment dial. While turning the coarse adjustment trimmer, do not subject it to a thrust. Doing so may cause the trimmer to come off. To turn the trimmer, use a screwdriver with the following flat blade made of non-conductive materials such as ceramic: 0.4 mm in thickness, 1.8 mm in width, and 10 mm in length or longer.
Measurement Procedure
1. Check that the system is safe, and that the preparations described in the preceding section have been carried out.
2. Open the current sensor by pushing the slide switch in the direction of the arrow as shown in the figure below (for RP1003C/RP1004C, the slide switch should be at the OPEN position; for RP1005C, UNLOCK should be displayed on the slide switch and LOCK should disappear).
Slide Switch
3. Align the sensor so that the current direction indication corresponds to the direction of current flow through the conductor to be measured, and clamp so that the conductor is in the center of the sensor aperture.
4. Lock the current sensor by pushing the slide switch in the direction of the arrow as shown in the figure below (for RP1003C/RP1004C, the slide switch should be in the LOCK position; for RP1005C/RP1006C, you need to first press the current probe to close the current sensor and then push the slide switch until LOCK is displayed and UNLOCK disappears).
Slide Switch

5. It is now possible to monitor the current waveform. The output rate is 0.1 V/A for RP1003C/RP1004C and 0.01 V/A for RP1005C/RP1006C. The current sensitivity can be derived from the voltage sensitivity of the waveform

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measurement instrument. For example, for RP1003C, if the voltage sensitivity is 10 mV/div, the current sensitivity is (10 mV/div)/(0.1 V/A)=100 mA/div. NOTE When using the current probe, note that two clamp-on probes may not be used simultaneously with the RP1000P, depending on the current to be measured. The current consumption of the current probe depends on the current to be measured. Make sure that the total current consumption of the current probes does not exceed the rated output current of the power supply when multiple current probes are connected to the same power supply. The figure below is the relation curve between the output current and current consumption.
RP1003C

RP1004C

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RP1005C

RP1006C Note: The current consumption is the algebraic sum of the positive and negative current consumption.

Precautions for Measurement

CAUTION
1. The maximum continuous input range is based on the heat that is internally generated during the measurement. Never input current in excess of this level. Exceeding the rated level may result in damage to the probe.

2. The device may sustain damage from self-heating even at current levels that are lower than the maximum current value defined by the maximum rated current. The maximum rated current is a recommended value that assumes sine-wave

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input under standard conditions. Self-heating may increase if the ambient temperature increases or the measurement current waveform contains other frequency components. Refer to Appendix 2 Relation between Max Input Current and Frequency.
3. If excess current is input, generated heat activates a built-in safety function that blocks normal output. If this happens, remove the input immediately (remove the sensor from the conductor being measured, or reduce the input current to zero). Wait until the sensor has had sufficient time to cool before resuming operation.
4. Heating generated during measurement of the current with a frequency of 1 kHz or higher is mainly attributed to the self-heating of the sensor head. In this case, the built-in safety function will not be activated. Be careful to avoid accidents, such as a burn by heat, short-circuit, and damage to the sensor.
5. Even if the input current does not exceed the rated continuous input range, continuous input for an extended period of time may result in activation of the safety circuit to prevent damage resulting from heating of the sensor.
6. At high ambient temperature, the built-in safety circuit may activate at current input levels below the rated continuous input range.
7. Continuous input of current exceeding the continuous input range or repeated activation of the safety function may result in damage to the device.
8. The maximum input range is indicated by the Maximum Continuous Input Range. It is also indicated by another product specification Maximum Peak Current Value. Make sure that the input does not exceed the continuous maximum input range in rms.
9. Do not place any unclamped conductor with an electric current of a frequency of 10 kHz or higher near the sensor head. Current flowing in the conductor nearby may heat up the sensor head and cause its temperature to rise, leading to damage to the sensor.

RP1003C/RP1004C

RP1005C/RP1006C

10. When opening the sensor head of the probe, be sure to operate with the

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opening lever. For RP1003C/RP1004C, if an upper core is forced to open, when the sensor head is locked, the open-close mechanism can be damaged.

NOTE 1. Immediately after being powered on, the probe may be subject to an
appreciable offset drift due to self-heating. To counteract this, allow the probe to warm up for about 30 minutes before carrying out measurement.
2. When performing continuous measurements, it is necessary to be aware that the offset voltage drifts, depending on factors such as the ambient temperature.
3. Under certain circumstances, oscillation may occur if the probe is connected to the power supply while the power supply is on. This does not indicate a malfunction. Oscillation can be stopped and operation restored to normal by opening and closing the clamp.
4. Depending on the amplitude and frequency of the current being measured, the sensor head may emit a resonant sound. This sound may also occur during demagnetizing operation, but it does not represent a malfunction (device failure).
5. If foreign matter becomes adhered to the mating surfaces on the sensor head so that a slight gap exists between the upper and lower sensors, the sensor head may emit a resonant sound. Any foreign matter should be removed using the cleaning method described in this manual.
6. An increase in the volume of the resonant sound during use may indicate that the gap between the upper and lower sensors has increased in size. Since the sensor characteristics may change, it is recommended to calibrate the device.
7. Pressing the demagnetizing switch (DEMAG) will cause a demagnetized waveform to be output from the instrument. Although it may be asymmetry with respect to the zero-volt line, the instrument has no malfunction.
8. The reading may be affected by the position within the clamp aperture of the conductor being measured. The conductor should be in the center of the clamp aperture.
9. When carrying out measurement, make sure the sensor head is locked (for RP1003C/RP1004C, the slide switch should be in the LOCK position; for

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RP1005C/RP1006C, press the slider on the sensor head until the "UNLOCK" indication disappears, and hold it until LOCK appears). If the sensor head is not properly closed, accurate measurement will not be possible.

10. Accurate measurement may be impossible in locations subject to strong external magnetic fields, such as transformers and high current conductors, or in locations subject to strong external electric fields, such as radio transmission equipment.

11. At high frequencies, common mode noise may affect measurements taken on the high voltage side of circuits. If this occurs, reduce the frequency range of the waveform measuring instrument, or clamp onto the low-voltage side of the circuit, as appropriate.

High
Signal Source

×
Load

High
Signal Source

×
Load

Low
RP1003C/RP1004C

Low
RP1005C/RP1006C

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Specifications
When the probe works for at least 30 minutes at 23°C±5°C, the following specifications can be guaranteed.

RP1003C/RP1004C

RP1003C: DC to 50 MHz (-3 dB), refer to

Appendix 1 Amplitude-frequency

Bandwidth

Characteristics (RP1003C) RP1004C: DC to 100 MHz (-3 dB), refer to

Appendix 1 Amplitude-frequency

Characteristics (RP1004C)

Rise Time

RP1003C: 7 ns RP1004C: 3.5 ns

Maximum

30 Arms, refer to Appendix 2 Relation between

Continuous Input Max Input Current and Frequency

Range

(RP1003C/RP1004C)

Maximum Peak

Non-continuous 50 A peak

Current Value

Gain

0.1 V/A

±1.0%rdg±1 mV, 30 Arms

Amplitude

±2.0%rdg, 50 A peak

Accuracy

(DC, 45 Hz to 66 Hz, input within continuous

maximum input range)

Noise

2.5 mArms (for BW 20 MHz waveform measuring instrument)

Input Impedance

Refer to Appendix 3 Input Impedance (Typical) (RP1003C/RP1004C)

Temperature

±2% (during input of 50 Hz, 30 Arms within

Coefficient for

range of 0°C to 40°C)

Sensitivity

Maximum Rated

5.3 VA

Power

Rated Supply

+12 V±0.5 V

Voltage

Operating

0°C to 40°C, 80% RH (no condensation)

Temperature and

Humidity Range

Storage

-10°C to +50°C, 80% RH (no condensation)

Temperature and

Humidity Range

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Location for Use
Effect of External Magnetic Fields
Diameter of Measurable Conductor Measurable Conductor Guaranteed Accuracy Period
Cable Length
External Dimension
Mass
Accessories Safety EMC

RIGOL
Indoor, altitude up to 2,000 m, Pollution Degree 2 RP1003C: 20 mA (DC and 60 Hz, magnetic field of 400 A/m) RP1004C: 5 mA (DC and 60 Hz, magnetic field of 400 A/m) 5 mm
Insulated conductor
1 year (opening/closing up to 10,000 times)
Sensor cable: approx. 1.5 m Power supply cable: approx. 1 m Sensor: approx. 175W×18H×40D (mm) (excluding protrusions) Terminator: approx. 27H×55W×18D (mm) RP1003C: approx. 230g RP1004C: approx. 240g User Guide, Probe Case EN61010 EN61326

RP1005C
Bandwidth
Rise Time Maximum Continuous Input Range Maximum Peak Current Value Gain
Amplitude Accuracy
Noise
Input Impedance
Temperature

DC to 10 MHz (-3 dB), refer to Appendix 1 Amplitude-frequency Characteristics (RP1005C)
35 ns
150 Arms, refer to Appendix 2 Relation between Max Input Current and Frequency (RP1005C)
300A peak, non-continuous 500A peak, pulse width30s
0.01 V/A
±1.0%rdg±1 mV, 150 Arms ±2.0%rdg, 150 A to 300 A peak (DC, 45 Hz to 66 Hz)
25 mArms (for BW 20MHz waveform measuring instrument)
Refer to Appendix 3 Input Impedance (Typical) (RP1005C)
±2% (during input of 55 Hz, 150 Arms within

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Coefficient for Sensitivity Maximum Rated Power Rated Supply Voltage Operating Temperature and Humidity Range Storage Temperature and Humidity Range Location for Use Period of Guaranteed Accuracy Effect of External Magnetic Fields Diameter of Measurable Conductor Measurable Conductor
Cable Length
External Dimension Mass Accessories Safety EMC

range of 0°C to 40°C)
5.5 VA (within maximum continuous input range)
+12 V±1 V
0°C to 40°C, 80% RH (no condensation)
-10°C to +50°C, 80% RH (no condensation)
Indoor, altitude up to 2,000 m, Pollution Degree 2 1 year (opening/closing up to 10,000 times)
150 mA (in a DC or 60 Hz, 400 A/m magnetic field) 20 mm
Insulated conductor
Sensor cable: approx. 2 m Power supply cable: approx. 1 m Sensor: approx. 176W X 69H X 27D (mm) Terminator: approx. 27H X 55W X 18D (mm) Approx. 500g User Guide, Probe Case EN61010 EN61326

RP1006C
Bandwidth
Rise Time Maximum Continuous Input Range
16

DC to 2 MHz (-3 dB), refer to Appendix 1 Amplitude-frequency Characteristics (RP1006C) 175 ns 500 Arms, refer to Appendix 2 Relation between Max Input Current and Frequency (RP1006C)
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Maximum Peak Current Value Gain Amplitude Accuracy
Noise
Input Impedance
Temperature Coefficient for Sensitivity Maximum Rated Power Rated Supply Voltage Operating Temperature and Humidity Range Storage Temperature and Humidity Range Location for Use Period of Guaranteed Accuracy Effect of External Magnetic Fields Diameter of Measurable Conductor Measurable Conductor
Cable Length
External Dimension Mass Accessories Safety EMC

RIGOL
700A peak, non-continuous 0.01 V/A ±1.0%rdg±5 mV, 500 Arms ±2.0%rdg, 700 A peak (DC, 45 Hz to 66 Hz) 25 mArms (for BW 20MHz waveform measuring instrument) Refer to Appendix 3 Input Impedance (Typical) (RP1006C) ±2% (during input of 50 Hz, 500 Arms within range of 0°C to 40°C)
7.2 VA (within maximum continuous input range)
+12 V±0.5 V
0°C to 40°C, 80% RH (no condensation)
-10°C to +50°C, 80% RH (no condensation)
Indoor, altitude up to 2,000 m, Pollution Degree 2 1 year (opening/closing up to 10,000 times)
800 mA (in a DC or 60 Hz, 400 A/m magnetic field) 20 mm
Insulated conductor
Sensor cable: approx. 2 m Power supply cable: approx. 1 m Sensor: approx. 176W X 69H X 27D (mm) Terminator: approx. 27H X 55W X 18D (mm) Approx. 520g Probe Case EN61010 EN61326

RP1003C/1004C/1005C/1006C User Guide

1.888.610.7664

www.calcert.com

sales@calcert.com

RIGOL
Appendix
Appendix 1 Amplitude-frequency Characteristics

RP1003C

RP1004C

RP1003C/1004C/1005C/1006C User Guide

1.888.610.7664

www.calcert.com

sales@calcert.com

RIGOL
RP1005C

RP1006C

RP1003C/1004C/1005C/1006C User Guide

1.888.610.7664

www.calcert.com

sales@calcert.com

RIGOL
Appendix 2 Relation between Max Input Current and Frequency

RP1003C

RP1004C

RP1003C/1004C/1005C/1006C User Guide

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RIGOL
RP1005C

RP1006C

RP1003C/1004C/1005C/1006C User Guide

1.888.610.7664

www.calcert.com

sales@calcert.com

RIGOL
Appendix 3 Input Impedance (Typical)

RP1003C

RP1004C

RP1003C/1004C/1005C/1006C User Guide

1.888.610.7664

www.calcert.com

sales@calcert.com

RIGOL
RP1005C

RP1006C

RP1003C/1004C/1005C/1006C User Guide

1.888.610.7664

www.calcert.com

sales@calcert.com

References

Calcert

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