Description
Agilent 60504B Electronic Load Module
The Agilent 60504B 600-Watt Electronic Load Module has a current between 0 to 120 A, 3V to 60 V and 600 W at 40ºC of power. In constant current mode this instrument has ranges between 0 to 12 A and 0 to 120 A, in constant resistance mode the instrument has ranges between 0.017 Ω to 0.5 Ω, 0.5 Ω to 500 Ω and 5 Ω to 5 kΩ and in constant voltage mode it has a range between 0 to 60 V.
In this model the main estimation of the battery's execution is its appraised limit. The limit of a completely charged battery at a settled temperature is characterized as the result of the appraised release current in amperes and the release time in hours. A battery is viewed as released when it comes to the minimum voltage called the "end of release voltage"
A common use for electronic loads when testing power supplies includes control supply burn-in. One of the issues related with burn-in is the thing that to do if the power supply bombs before the test is finished. One arrangement includes consistently observing the supply and expelling the load if the supply comes up short amid the test, if this happens and the power supply's yield current dips under the appraised yield current amid the test, the UNR condition will be determined to the Electronic Load. This can be utilized to show that a failure has occurred on the power supply, if the unregulated condition holds on for a predetermined time, the contributions of the Electronic Loads are turned off.
The Agilent 60504B 600-Watt Electronic Load Module has a current between 0 to 120 A, 3V to 60 V and 600 W at 40ºC of power. In constant current mode this instrument has ranges between 0 to 12 A and 0 to 120 A, in constant resistance mode the instrument has ranges between 0.017 Ω to 0.5 Ω, 0.5 Ω to 500 Ω and 5 Ω to 5 kΩ and in constant voltage mode it has a range between 0 to 60 V.
In this model the main estimation of the battery's execution is its appraised limit. The limit of a completely charged battery at a settled temperature is characterized as the result of the appraised release current in amperes and the release time in hours. A battery is viewed as released when it comes to the minimum voltage called the "end of release voltage"
A common use for electronic loads when testing power supplies includes control supply burn-in. One of the issues related with burn-in is the thing that to do if the power supply bombs before the test is finished. One arrangement includes consistently observing the supply and expelling the load if the supply comes up short amid the test, if this happens and the power supply's yield current dips under the appraised yield current amid the test, the UNR condition will be determined to the Electronic Load. This can be utilized to show that a failure has occurred on the power supply, if the unregulated condition holds on for a predetermined time, the contributions of the Electronic Loads are turned off.
Technical Specifications
Model Number: | 60504B |
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Amperes / Current | 0 to 120 A |
Voltage | 3 to 60 V |
Max Power | 600 W |
Constant Current Mode: | 60504B |
Ranges: | 0 to 12 A; and 0 to 120 A |
Accuracy: | (after 30 second wait): ± 0.12% ± 130 mA (both ranges) |
Resolution: | 3.2 mA (12 A range); 32 mA (120 A range) |
Regulation: | 10 mA (both ranges) |
Temperature Coefficient: | 120 ppm/°C ± 8 mA/°C (both ranges) |
Constant Resistance Mode: | 60504B |
Ranges: | 0.017 to 0.5 Ω; 0.5 Ω to 500 Ω; and 5 Ω to 5 kΩ |
Accuracy: | ± 0.8% ± 5 mΩ with ≥ 12 A at input (0.5 Ω range);± 0.3% ± 18 mS with ≥ 6 V at input (500 Ω and 5 kΩ ranges) |
Resolution: | 0.14 mΩ (0.5 Ω range); 0.54 mS (500 kΩ range); 0.054 mS (50 kΩ range) |
Regulation: | 20 mV with remote sensing (0.5 Ω range); 10 mA (500 Ω and 5 kΩ ranges) |
Temperature Coefficient: | 800 ppm/°C ± 0.2 mΩ/°C (0.5 Ω range); 300ppm/°C ± 1.2 mS/°C (500 Ω and 5 kΩ ranges) |