Difference between revisions of "POT4 PINOUT"
From DIDEAS Wiki
m |
m (→"Velocity" differentiated output header (2 pin)) |
||
(4 intermediate revisions by the same user not shown) | |||
Line 2: | Line 2: | ||
− | == | + | ==Input header (5 pin)== |
===Connection for a potentiometer=== | ===Connection for a potentiometer=== | ||
#REF+ : Positive reference output | #REF+ : Positive reference output | ||
Line 8: | Line 8: | ||
#REG- : Negative reference output | #REG- : Negative reference output | ||
#SHLD : Connect to the shield that encloses lead wires and potentiometer. Do not connect to the chassis or "GND" | #SHLD : Connect to the shield that encloses lead wires and potentiometer. Do not connect to the chassis or "GND" | ||
− | + | #PKUP : Not used (Negative amp input) | |
− | #PKUP : Not used | ||
===Connection for a strain gauge bridge=== | ===Connection for a strain gauge bridge=== | ||
#REF+ : Positive reference output, connect to "top" of bridge | #REF+ : Positive reference output, connect to "top" of bridge | ||
− | #SIG : Amplifier positive input, connect to bridge signal (+) | + | #SIG+ : Amplifier positive input, connect to bridge signal (+) |
#REG- : Negative reference output, connect to "bottom" of bridge | #REG- : Negative reference output, connect to "bottom" of bridge | ||
#SHLD : Connect to the shield that encloses lead wires and bridge. Do not connect to the chassis or "GND" | #SHLD : Connect to the shield that encloses lead wires and bridge. Do not connect to the chassis or "GND" | ||
− | # | + | #SIG- : Amplifier negative input, connect to bridge signal (-) |
− | + | ==Output and Power header (5 pin)== | |
− | == | ||
#+12 : Connect to a low noise +12V power supply | #+12 : Connect to a low noise +12V power supply | ||
#P+ : Positive going differential "Position" output | #P+ : Positive going differential "Position" output | ||
Line 32: | Line 30: | ||
*P+ and P- are fully differential and are NOT ground referenced. For single ended operation, at the receiving end, connect P- to the local ground. | *P+ and P- are fully differential and are NOT ground referenced. For single ended operation, at the receiving end, connect P- to the local ground. | ||
− | + | ==Output (2pin) "Velocity" header== | |
− | =="Velocity" | ||
#V+ : Positive going "Velocity" output | #V+ : Positive going "Velocity" output | ||
#v- : Negative going "Velocity" output | #v- : Negative going "Velocity" output | ||
NOTES: See preceding notes for P+/P- as V+/V- are also differential outputs | NOTES: See preceding notes for P+/P- as V+/V- are also differential outputs |
Latest revision as of 21:33, 16 August 2006
Header Pinouts : POT4 POT4a POT4b
Contents
Input header (5 pin)
Connection for a potentiometer
- REF+ : Positive reference output
- SIG : Potentiometer wiper "position" signal
- REG- : Negative reference output
- SHLD : Connect to the shield that encloses lead wires and potentiometer. Do not connect to the chassis or "GND"
- PKUP : Not used (Negative amp input)
Connection for a strain gauge bridge
- REF+ : Positive reference output, connect to "top" of bridge
- SIG+ : Amplifier positive input, connect to bridge signal (+)
- REG- : Negative reference output, connect to "bottom" of bridge
- SHLD : Connect to the shield that encloses lead wires and bridge. Do not connect to the chassis or "GND"
- SIG- : Amplifier negative input, connect to bridge signal (-)
Output and Power header (5 pin)
- +12 : Connect to a low noise +12V power supply
- P+ : Positive going differential "Position" output
- GND : Connect to
- P- : Negative going differential "Position" output
- -12 : Connect to a low noise -12V power supply
NOTES:
- P+ and P- are connected to low impedance drive though a 50 ohm resistor
- Capacitance of 1.1uF (typical) is placed across P+ / P- which forms 1st order lowpass filter with Fc=1.45KHz
- P+ and P- are fully differential and are NOT ground referenced. For single ended operation, at the receiving end, connect P- to the local ground.
Output (2pin) "Velocity" header
- V+ : Positive going "Velocity" output
- v- : Negative going "Velocity" output
NOTES: See preceding notes for P+/P- as V+/V- are also differential outputs