Jaquet with input card -E03 FTFU 3024- E03 377Z-03983
with input card -E03 FTFU 3024- E03 377Z-03983
Once the machine factor M is defined (M = Freq. In Hz/ measured value eg rpm), the input of measuring range and limit
values is directly in the chosen physical units eg rpm. In place of the machine factor, the number of pulses per rev from the
pole wheel may be entered. Moreover once the nominalspeed is defined (=100%), limits can be given as a percentage of
nominal. The measured range may be continuously exceeded up to 55KHz without affecting functionality or causing any
damage to the unit.
Sensor signal input-
Frequency input 1
Input card -0X for frequency input 1. plugged onto the motherboard FTFU 3024
Input card E-01:
potential free, isolation 500V, 50Hz,1 Min. from electronics and earth ie from front panel
and card frames.
for connection of electromagnetic, ferrostat or HF sensors, proximity switches and sensors
with line amplifiers.
Input impedance: 100kohm
Input voltage: 50mV…80V rms
Bandwith (-3dB) : 0.5 Hz /3.3 kHz
Frequency domain for pulsed signals : 0.02Hz / 30kHz
Input level for sinus signals : 50 mv rms at min trigger
Input level for pulsed signals : 10Vpp at 20% trigger level
Trigger level: adjustable between 0 and +3.5V via front panel
trimmer T. The voltage at test point T to ground of
fixed hysteresis of 50mV rms = 141mVss
Integral pull up (+12V) and pull down (0V) resistance of 11 kOhm for connecting 2 wire
sensors, jumper selectable.
Sensor monitoring of 2 and 3 wire sensors, jumper selectable -If the supply current is
< I min or > I max a defect is signalled by the green LED ‘MO’ off and the red LED ‘MO’
on.
I min is set via front panel trimmer ‘L’
I max is set via front panel trimmer ‘H’
A voltage at test points ‘L’ and ‘H’ to ground from 0…10V corresponds to supply current of
0…30mA.
A voltage from 0…10V at test point ‘M’ corresponds to the actual supply current of …30mA.
To adjust the trimmers the module must be plugged onto an extension card to open the seal.
Integral sensor supply of +11.5…12.5V, max 25mA, short circuit proof (max 40mA).
potential free, insulation 500V, 50Hz,1 Min. from electronics and earth ie from front panel
and card frames.
This input card is a special version and is only for specific applications available.
Configuration available only by contacting the system supplier.
Input impedance: : 100kohm
Input voltage: : 0…-24V
Frequency domain for pulsed signals : 0… 30kHz
Input level for pulsed signals : 0.2 …24Vpp
Trigger level: Adjustable between 0 and +3.5V via front panel trimmer T.
The voltage at test point T of 0…10V correspnds to 0…3.5V Trigger Voltage
Fixed hysteresis of 50mV rms = 141mVss
Default setting : T = 2V corresponds to 660mV Trigger level
The sensor monitoring is realised by checking the sensor output signal (Card Uin).
Uin (low) must be greater then the defined minimum value (absolut values).
Uin(high) must be smaler then de defined maximum value (absolut values).
Uin < Uin(min) or Uin > Uin(max) is signaled by the green LED ‘MO’ off and the red LED
‘MO’ on.
Uin(min) is set via front panel trimmer ‘L’
Uin(max) is set via front panel trimmer ‘H’
A voltage at test points ‘L’ and ‘H’ to ground from 0…10V corresponds signal level of 0…
24V.
Default setting from ‘L’ = 1V corresponds to a minimum signal level of -2.4V.
Default setting from ‘H’ = 8.33 V corresponds to a maximum signal level of – 19.9V.
A square wave signal from 0…10Vpp at test point ‘M’ corresponds to the actual sensor signal
of 0…-24Vpp.
To adjust the trimmers the module must be plugged onto an extension card to open the seal.
Integral sensor supply of –24V +/- 4%
potential free, insulation 500V, 50Hz,1 Min. from electronics and earth ie from front panel
and card frames.
This input card is a special version and is only for specific applications available.
Configuration available only by contacting the system supplier.
Input impedance: 100kohm
Input voltage: 0…-24V
Frequency domain for pulsed signals : 0… 30kHz
Input level for pulsed signals : 0.2 …24Vpp
Trigger level: Adjustable between 0 and +3.5V via front panel trimmer T.
The voltage at test point T of 0…10V correspnds to 0…3.5V Trigger Voltage
Fixed hysteresis of 50mV rms = 141mVss
Default setting : T = 2V corresponds to 660mV Trigger level
The sensor monitoring is realised by checking the sensor output signal (Card Uin).
Uin (low) must be greater then the defined minimum value (absolut values).
Uin(high) must be smaler then de defined maximum value (absolut values).
Uin < Uin(min) or Uin > Uin(max) is signaled by the green LED ‘MO’ off and the red LED
‘MO’ on.
Uin(min) is set via front panel trimmer ‘L’
A voltage at test point ‘L’ to ground from 0…10V corresponds signal level of 0…-24V.
Default setting from ‘L’ = 1V corresponds to a minimum signal level of -2.4V.
Default setting from ‘H’ = 10 V corresponds to a maximum signal level of – 36V.(not
adjustable)
A square wave signal from 0…10Vpp at test point ‘M’ corresponds to the actual sensor signal
of 0…-24Vpp.
To adjust the trimmers the module must be plugged onto an extension card to open the seal.
Integral sensor supply of –24V +/- 4%
Frequency inputs 2 and 3 Motherboard FTFU 3024
For average/max values and direction
2 inputs with common
reference voltage – -V of supply
+24 level
U low: 0…+3V or open
U high: +10…+33V, I source = max 3mA.