1030 DC Current Source Data Sheet0 pages
Time Electronics
1030 MicroCal - Voltage and Current Source
• 10mV, 100mV, 1V ranges
• 10mA, 100mA ranges
• Accuracy 0.1%
• Linearity 0.15%
• Up to 8V output (using 1kΩ resistor)
• Precision 10-turn dial
• 60 hours typical battery life
• Battery level indicator
SOFTWARE
• Supplied with carry case
DESCRIPTION
The 1030 MicroCal is a portable voltage and current calibrator for general purpose signal injection.
It is suitable for voltage and current loop signal simulation as well as thermocouple simulation.
Being both cost-effective and simple operation, it is a popular instrument used in various applications
across industries.
The compact (115 x 62 x 55mm) and durable design makes it ideal for
use in both the lab and field, with carry case supplied as standard.
Typically battery life is 60 hours. An optional rechargeable battery
pack is available, with mains charger that connects via a socket on
the top of the unit.
The MicroCal is designed for traditional analogue control. The precision 10-turn dial provides a conventional
feel to selecting the required output with a setting resolution of 1 part in a 1000 (0.1%).
Three voltage ranges give an adjustable output from 10µV to 1V and two current ranges for 10µA to 100mA.
An additional 0 to 8V output can be obtained by using a precision 1KΩ resistor that is supplied with the unit.
The resistor is connected across the output terminals and the 10mA current range selected. This allows the
output to be set between 0 and +/- 8V with a 10mV resolution and an accuracy of 0.3% of full scale.
The 1030 is simple to operate and does not require any standardisation prior to use. The operator needs
only to switch on, check the battery condition, and set the required range and output value.
APPLICATIONS
Accurate measurements of low ohm values, such as platinum resistance thermometers, can be performed
by using the 1030 as a current source and measuring the voltage across the load with a digital voltmeter.
The 10mV range of the 1030 is ideal for simulation of all types of thermocouple.
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