BOSCH REXROTH
0811405152
$2,825.00
- BOSCH REXROTH
- Material:0811405152
- Model:VT-VARAP1-527-20/V0
Quantity in stock: 0
Pressure sensor connection versions
01 |
02 |
03 |
04 |
05 |
06 |
07 |
08 |
09 |
10 |
11 |
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VT- |
V |
A |
R |
A |
P |
1 |
– |
– |
2X |
/ |
V0 |
/ |
01 |
VT- |
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02 |
V |
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Hydraulic component (control) |
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03 |
Axis control |
A |
Valve type |
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04 |
High-response valve |
R |
Control |
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05 |
Analog |
A |
Function |
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06 |
p/Q control |
P |
Output stages |
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07 |
1 output stage |
1 |
Serial number for types |
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08 |
2.7 A solenoid |
527 |
3.7 A solenoid |
537 |
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09 |
Component series 20 ... 29 (20 ... 29: unchanged technical data and pin assignment) |
2X |
Customer version |
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10 |
Catalog version |
V0 |
Option |
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11 |
High-response valve size 6/10, direct operated |
no code |
p/Q valve size 10, direct operated |
5/3V |
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High-response valve, pilot-operated |
2STV |
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High-response valve, pilot-operated, control line A → X |
3/2V |
General
Type / version |
VT-VARAP1-527 | VT-VARAP1-537 | |||
Supply voltage |
nominal 24 V= battery voltage 21...40 V, rectified alternating voltage Ueff = 21...28 V (single-phase, full-wave rectifier) |
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Smoothing capacitor, separately |
Recommendation: Capacitor module VT 11110 (see data sheet 30750) (only necessary if the ripple of UB >10 %) |
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Valve solenoid, max. |
A |
2.7 | 3.7 | ||
Current consumption, max. 1) |
A |
1.7 | 2.7 | ||
Power consumption (typical) |
W |
37 | 55 | ||
Input signal (command value) |
b20: 0...±10 V – differential amplifier z20: 0...±10 V – differential amplifier (Ri= 100 kΩ) |
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Input signal (command value p) |
z12: 0...+10 V – differential amplifier z10: 0 V – differential amplifier |
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Actual value from the pressure sensor |
z14: 4...20 mA – current input b16: 0...+10 V/1...+6 V – voltage input b18: 0 V – reference |
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Pressure controller OFF |
b10: 6...40 V= | ||||
External enquiry pressure controller active |
z24: 24 V/0.1 A max. | ||||
Limit frequency |
for applications ≤ 30 Hz | ||||
Signal source |
Potentiometer 10 kΩ Supply with ±10 V from b32, z32 (10 mA) or external signal source |
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Enable output stage |
at z16, U= 8.5...40 V, Ri = 100 kΩ LED (green) on front plate lights up | ||||
Sensor supply |
z6: +15 V/35 mA, Ri ~ 25 Ω | ||||
Position transducer |
Supply |
b30: -15 V (25 mA) z30: +15 V (35 mA) |
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Pilot control valve |
Actual value signal |
b22: 0...±10 V, RL = 10 kΩ/Ref. b24 | |||
Main stage |
Actual value reference |
b26: 0...±10 V, RL = 10 kΩ/Ref. b28 | |||
Solenoid output |
Clocked current controller | ||||
Imax |
A |
2.7 | 3.7 | ||
Cable lengths between amplifier and valve |
Solenoid cable |
m |
20 | ||
m |
20 … 60 | ||||
Number of wires / line cross-section |
Position transducer |
4 x 0.5 mm2 (shielded) | |||
Pressure sensor |
4 x 0.5 mm2 (shielded) | ||||
Special features |
Cable break protection for actual value cable Position control with PID behavior Pulsed output stage Fast energization and fast deletion for short actuating times Short-circuit-proof outputs External controller shut-off |
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Adjustment |
Zero point via trimming potentiometer ±5 % Command value attenuator Q Pressure controller KP, KI and KD Sensitivity pressure load cell Zero point pressure load cell |
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LED displays |
green |
Enable | |||
yellow |
Cable break position transducer | ||||
red |
Supply voltage (UB too low) | ||||
yellow |
Pressure controller OFF | ||||
yellow |
Pressure controller working | ||||
both yellow LEDs are flashing |
Cable break pressure sensor | ||||
Error message |
Cable break actual value |
z22: Open collector output to +UB max. 100 mA; no error: +UB |
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Plug-in connection |
Plug to DIN 41612-F32 | ||||
Operating temperature |
°C |
0 … +70 | |||
Storage temperature range |
°C |
-20 … +70 | |||
Weight |
m |
kg |
0.49 |
1) | Current consumption may increase with min. UB and extreme cable lengths to the control solenoid |
Power zero b2 and control zero b12 or b14 or z28 must be separately led to the central ground (neutral point).
For applications outside these parameters, please consult us!
a |
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b |
Problem: P share too small Solution: → Rotate KP against 13 (fine adjustment) → P gain >
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DIL 14 |
ON |
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DIL 15 |
OFF |
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DIL 16 |
ON |
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c |
Problem: P share too large Solution: → Rotate KP against 0 (fine adjustment) ➝ Use DIL 14–16 to reduce the P gain according to the table |
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d |
Problem: P share correct, control deviation too large Solution: ➝ Increase the I gain share → DIL 11 ON = I share = 0 DIL 12 ON = I share connected → Rotate KI against 13 |
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e |
Problem: Time constant of the I share too low Solution: ➝ Rotate KI against 13 until control deviation and vibration are perfect → If KI = 13 is not sufficient, the P share must also be reduced |
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f |
Problem: D share too low Solution: ➝ Rotate KD against 13 → D share > |
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DIL 8 |
ON |
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DIL 9 |
OFF |
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DIL 10 |
OFF |
Front plate
Block diagram with pin assignment
0811405152, 0811405153, 0811405154
Block diagram with pin assignment
0811405155, 0811405156
Block diagram daughter card
Mode setting (DIL switch, daughter card)
DIL switch
HEXCODE switch
Principle of the control loop
Example 2
Flow with load compensation controlled via pressure compensator and the pressure regulated in the closed control loop (pressure cut off).
Example 1
Pressure control in a cylinder chamber for achieving a constant clamping force.
Dimensions in mm