1230-A: Difference between revisions
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|codes=MASON,1230-9701 | |codes=MASON,1230-9701 | ||
|class=meters | |class=meters | ||
|summary= | |summary=Electrometer and DC amplifier | ||
|image=GR 1230-A Front Close-up.jpg | |image=GR 1230-A Front Close-up.jpg | ||
|caption=General Radio 1230-A Electrometer and DC Amplifier | |caption=General Radio 1230-A Electrometer and DC Amplifier | ||
| Line 16: | Line 16: | ||
The {{Title|General Radio 1230-A Electrometer and DC Amplifier}} was introduced in {{Catalog O}} and remained available through {{Catalog T}}. | The {{Title|General Radio 1230-A Electrometer and DC Amplifier}} was introduced in {{Catalog O}} and remained available through {{Catalog T}}. | ||
The Type 1230-A is laboratory instrument designed for the measurement of extremely small voltages or currents and conversely extremely large resistances. It achieves this with the 5886 | The Type 1230-A is laboratory instrument designed for the measurement of extremely small voltages or currents and conversely extremely large resistances. It achieves this with the [[tube:5886|5886 electrometer vacuum tube]] used in the first stage of amplification. The combined gain of the three stages result in a transconductance in the millions of μS. The output of the amplifier is read from the panel meter, or an optional recorder connection at the rear panel. The recorder terminals are in series with the meter, so a resistor is required without a recorder connected. | ||
==Specifications== | ==Specifications== | ||
* '''RANGES OF MEASUREMENT''' | * '''RANGES OF MEASUREMENT''' | ||
* '''Voltage:''' ±30, 100, and 300 mV | * '''Voltage:''' ±30, 100, and 300 mV, ±1, 3, and 10 V DC full scale | ||
* '''Current:''' ±1 mA DC | * '''Current:''' ±1 mA DC full scale, to ±0.3 pA full scale; Measured in terms of voltage | ||
* '''Resistance:''' direct reading from 300 kΩ to 10 TΩ full scale | * '''Resistance:''' direct reading from 300 kΩ to 10 TΩ full scale in 16 ranges, two per decade. Voltage across the unknown resistance is 9.1 V | ||
* '''ACCURACY''' | * '''ACCURACY''' | ||
* '''Voltage:''' ±2% of full scale on the five highest ranges, ±4% of full scale on the 30 mV range | * '''Voltage:''' ±2% of full scale on the five highest ranges, ±4% of full scale on the 30 mV range | ||
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==Links== | ==Links== | ||
* [[Media:GR Exp 1230-A 03_1956.pdf|Experimenter describing Type 1230-A | * [[Media:GR Exp 1230-A 03_1956.pdf|Experimenter March 1956 describing Type 1230-A]] | ||
* [[Media:Tung-Sol 6418 Tubedata 1963.pdf|Tung-Sol 6418 Datasheet]] | * [[Media:Tung-Sol 6418 Tubedata 1963.pdf|Tung-Sol 6418 Datasheet]] | ||
* [[Media:Tung-Sol 5886 Tubedata 1963.pdf|Tung-Sol 5886 Datasheet]] | * [[Media:Tung-Sol 5886 Tubedata 1963.pdf|Tung-Sol 5886 Datasheet]] | ||
Latest revision as of 11:03, 30 April 2024
The General Radio 1230-A Electrometer and DC Amplifier was introduced in Catalog O (1956) and remained available through Catalog T (1968).
The Type 1230-A is laboratory instrument designed for the measurement of extremely small voltages or currents and conversely extremely large resistances. It achieves this with the 5886 electrometer vacuum tube used in the first stage of amplification. The combined gain of the three stages result in a transconductance in the millions of μS. The output of the amplifier is read from the panel meter, or an optional recorder connection at the rear panel. The recorder terminals are in series with the meter, so a resistor is required without a recorder connected.
Specifications
- RANGES OF MEASUREMENT
- Voltage: ±30, 100, and 300 mV, ±1, 3, and 10 V DC full scale
- Current: ±1 mA DC full scale, to ±0.3 pA full scale; Measured in terms of voltage
- Resistance: direct reading from 300 kΩ to 10 TΩ full scale in 16 ranges, two per decade. Voltage across the unknown resistance is 9.1 V
- ACCURACY
- Voltage: ±2% of full scale on the five highest ranges, ±4% of full scale on the 30 mV range
- Current: ±3% of full scale from 1 mA to 1 nA, ±10% of full scale from 300 pA to 0.3 pA
- Resistance: ±3% from 300 kΩ to 10 MΩ at full scale (low-resistance end), ±8% from 3 MΩ to 10 TΩ
