|
Click on a category to narrow your results.
|
|
|
Home
|
| |
|
|
|
Product Categories for output impedance
Impedance Matching Networks -
(18 company listings)
Impedance matching networks are electrical circuits which, when connected between two networks, match the output impedance of the source (the first network) to the input impedance of the load (the receiving or second network).
Search by Specification |
Find more about Impedance Matching Networks
|
Data Acquisition Output Modules -
(153 company listings)
Data acquisition output modules or cards transfer amplified, conditioned, or digitized signals
Search by Specification |
Find more about Data Acquisition Output Modules
|
LCR Meters -
(94 company listings)
LCR meters and impedance meters measures inductance (L), capacitance (C), and resistance or impedance (R
Search by Specification |
Find more about LCR Meters
|
DC-DC Converters -
(522 company listings)
DC-DC converters accept DC input and provide regulated and/or isolated DC output in various applications including computer flash memory, telecommunications equipment, and process control systems
Search by Specification |
Find more about DC-DC Converters
|
Instrumentation Amplifiers -
(127 company listings)
Instrumentation amplifiers are differential amplifiers that have been optimized for use with DC signals.
Search by Specification |
Find more about Instrumentation Amplifiers
|
Digital-to-Analog Converters -
(142 company listings)
Digital-to-analog converters (DAC) transform a digital number into a corresponding analog voltage or current.
Search by Specification |
Find more about Digital-to-Analog Converters
|
Signal Conditioners -
(777 company listings)
Signal conditioning products provide amplification, filtering, converting, and other processes required to make sensor output suitable for reading by computer boards
Search by Specification |
Find more about Signal Conditioners
|
|
|
Machine Design Search Results for output impedance
Machine Design -
... low output impedance, load voltage correction in a switcher takes place only after a full cycle of the oscillator. In addition, the control-loop time constant is set to integrate the output voltage ...
|
Basics of Design Engineering - Electrical/Electronic - Power Supplies - ...
... low output impedance, load voltage correction in a switcher takes place only after a full cycle of the oscillator. In addition, the control-loop time constant is set to integrate the output voltage ...
|
Basics of Design Engineering - Electrical/Electronic - I/O Devices - ...
They also have low output impedance. This means that connecting them with oscilloscopes or chart recorders is relatively easy. The primary disadvantage of internally amplified units it that they ...
|
Machine Design -
They also have low output impedance. This means that connecting them with oscilloscopes or chart recorders is relatively easy. The primary disadvantage of internally amplified units it that they ...
|
[No Title]
... low output impedance, load voltage correction in a switcher takes place only after a full cycle of the oscillator. In addition, the control-loop time constant is set to integrate the output voltage ...
|
[No Title]
They also have low output impedance. This means that connecting them with oscilloscopes or chart recorders is relatively easy. The primary disadvantage of internally amplified units it that they ...
|
Basics of Design Engineering - Electrical/Electronic - Power Supplies - Power-...
... voltage fluctuates in step with input variations as well as changes in load impedance. Also, ripple voltage can run as high as 10% of the output dc voltage. Even with filter networks on the output, ...
|
Machine Design -
... voltage fluctuates in step with input variations as well as changes in load impedance. Also, ripple voltage can run as high as 10% of the output dc voltage. Even with filter networks on the output, ...
|
Basics of Design Engineering - Electrical/Electronic - I/O Devices - Magnetic ...
... with usable frequencies limited by internal sensor impedance and external load. Speeds near zero, however, cannot be measured because output voltage depends on the rate of change of flux through the ...
|
Machine Design -
... with usable frequencies limited by internal sensor impedance and external load. Speeds near zero, however, cannot be measured because output voltage depends on the rate of change of flux through the ...
|
|
|
|
