The 1650B is a bridge from General Radio. A bridge is useful for precise measurements, instrumentation, power conversion, and filtering in both linear and nonlinear applications. Pair bridges with other types of electronic test equipment to measure fixed and swept frequency return loss. Bridges check the performance of your system and its components, including amplifiers, couplers, filters, attenuators, terminations, and splitters.
Additional Features:
Self-contained impedance measuring system
Includes six bridges for the measurement of:
capacitance
resistance
conductance
inductance
Generators and detectors necessary for DC and 1 kHz measurements
Power is provided by four size D cells
Capacitance is measured from 1 pF to 1100 µF
Inductance range covers 1 µH to 1100 H
Resistance range (AC or DC) 1 mohm to 1.1 Mohms
Conductance range (AC or DC) 1 mmho to 1.1 mhos
Accuracy for the capacitance, inductance, resistance, and conductance is approximately ±1%
Dissipation factor:
(D) at 1 kHz is 0.001 to 1 (series C)
0.1 to 50 (parallel C)
The storage factor:
(Q) at 1 kHz is 0.02 to 10 (series L)
1 to 1000 (parallel L)
The 1650B is a bridge from General Radio. A bridge is useful for precise measurements, instrumentation, power conversion, and filtering in both linear and nonlinear applications. Pair bridges with other types of electronic test equipment to measure fixed and swept frequency return loss. Bridges check the performance of your system and its components, including amplifiers, couplers, filters, attenuators, terminations, and splitters.
Additional Features:
- Self-contained impedance measuring system
- Includes six bridges for the measurement of:
- capacitance
- resistance
- conductance
- inductance
- Generators and detectors necessary for DC and 1 kHz measurements
- Power is provided by four size D cells
- Capacitance is measured from 1 pF to 1100 µF
- Inductance range covers 1 µH to 1100 H
- Resistance range (AC or DC) 1 mohm to 1.1 Mohms
- Conductance range (AC or DC) 1 mmho to 1.1 mhos
- Accuracy for the capacitance, inductance, resistance, and conductance is approximately ±1%
- Dissipation factor:
- (D) at 1 kHz is 0.001 to 1 (series C)
- 0.1 to 50 (parallel C)
- The storage factor:
- (Q) at 1 kHz is 0.02 to 10 (series L)
- 1 to 1000 (parallel L)