BOSCH REXROTH
R-IBILPWM/2-PAC
R911170444
I/O Rexroth Inline Function modules
BOSCH REXROTH
MATERIAL: R911170444
SUMMARY: I/O Rexroth Inline Function modules
Quantity in stock: 2
Quantity Details:- Hydrotech Stock: 0 can ship April 19, 2024
- Factory Stock: 2 can ship June 7, 2024
This module is designed for use within an Inline station. It can be used in the following four different operating modes: PWM (pulse-width modulation), frequency generator, single shot (single-pulse generator), pulse-direction signal.
General data
Type |
R-IB IL PWM/2-PAC | |
Weight 1) |
g |
130 |
Operating mode |
Process data mode with 2 words | |
Sensor connection type |
2-, 3-wire technology | |
Ambient temperature (operation) |
-25 °C ... +55 °C | |
Ambient temperature (storage/transport) |
-25 °C ... +85 °C | |
Permissible relative humidity (operation) |
10 % ... 95 % acc. to DIN EN 61131-2 | |
Permissible relative humidity (storage/transport) |
10 % ... 95 % acc. to DIN EN 61131-2 | |
Air pressure (operation) |
70 kPa ... 106 kPa (up to 3000 m above sea level) | |
Air pressure (storage/transport) |
70 kPa ... 106 kPa (up to 3000 m above sea level) | |
Protection type |
IP20, IEC 60529 | |
Protection class |
III, VDE 0106, IEC 60536 |
1) | Including plug |
Interface local bus
Type |
R-IB IL PWM/2-PAC | |
Connection type |
Data ranking | |
Transmission speed |
kBit/s |
500 |
Inline potentials/performance balance
Type |
R-IB IL PWM/2-PAC | |
Logic voltage |
V DC |
7.5 |
Maximum current consumption from UL |
mA |
130 |
Maximum power consumption from UL |
W |
0.98 |
Segment supply voltage US 1) |
V DC |
24 |
Nominal current consumption from US |
A |
1 |
1) | Rated value |
Supply of module electronics and peripherals via bus coupler/power feed module
Type |
R-IB IL PWM/2-PAC | |
Connectivity technology |
Potential jumpers |
Digital outputs
24 V DC | 5 V DC | ||||
Number of digital outputs |
2 | 2 | |||
Nominal output voltage UOut |
V DC |
24 | 5 | ||
Differential voltage at INenn |
V |
≤ 1 | 0.5 | ||
Nominal current INenn each channel |
0.5 A | 10 mA | |||
Nominal current tolerance |
% |
+ 10 | + 10 | ||
Internal resistance |
200 mΩ | 50 Ω | |||
Short-circuit protection/overload protection of digital outputs |
Electronic | Electronic | |||
Nominal load |
Ω |
- | 500 | ||
Nominal load |
Ohmic |
W |
12 | - | |
Lamps |
W |
12 | - | ||
Inductance |
1.2 H; 24 Ω |
VA |
12 | - | |
Typical signal delay upon activating a |
Ohmic nominal load 1) |
µs |
≈ 80 | 2 | |
Lamp nominal load |
ms |
30 | - | ||
Inductive nominal load |
1.2 H; 24 Ω |
ms |
≈ 50 | - | |
Signal delay upon deactivating a |
Ohmic nominal load |
µs |
≈ 80 | 2 | |
Lamp nominal load |
µs |
≈ 100 | - | ||
Inductive nominal load |
1.2 H; 24 Ω |
ms |
≈ 150 | - | |
Maximum switching frequency for a |
Ohmic nominal load |
500 Hz | 50 kHz | ||
Lamp nominal load |
Hz |
500 | - | ||
Inductive nominal load |
1.2 H; 12 Ω |
Hz |
0.3 | - | |
Behavior for overload |
Automatic restart | - | |||
Response time upon short-circuit |
ms |
≈ 400 | - | ||
Reverse voltage protection from short pulses |
Reverse voltage protection | - | |||
Resistance to permanently generated reverse voltage 2) |
A |
≤ 2 | - | ||
Resistance to the polarity of the supply voltage |
Protection elements of the bus coupler or the feed module | - | |||
Resistance to permanently generated overload |
No | - | |||
Validity of the output data after switching on the 24 V supply voltage (power up) |
Typically 1 ms | - | |||
Behavior when the voltage is deactivated (power down) |
The output follows the power supply without delay | - | |||
Limited inductive cut-off voltage |
V |
≈ - 25 | - | ||
Unique maximum energy when free-wheeling |
mJ |
200 | - | ||
Type of protection circuit |
Integrated free-wheel diode per channel | - | |||
Overcurrent cutoff |
A |
≥ 0.7 | - | ||
Overvoltage/reverse polarity protection supply voltage |
Protective elements of the bus coupler or the feed module; the supply voltage must be fused. The power supply unit should be able to provide four times the nominal current of the fuse. | - |
1) | Typical |
2) | Reverse voltage protection in relation to the permissible supply voltage |
Power dissipation |
|
Formula for calculating the power dissipation in the electronics |
|
PEL = PBUS + POut5V + POut24V |
|
PEL = 1 W + n x ILi2 x 0.4 Ω |
|
where: |
|
PEL |
Total power dissipation in the module |
PBUS |
Power dissipation in the module without set output |
POut5V |
Power dissipation in the module through set 5 V outputs; this value is negligibly low, which is why it is omitted in the calculation. |
POut24V |
Power dissipation in the module through set 24 V outputs |
n |
Number of set 24 V outputs (n = 1 to 2) |
ILi |
Load current of output i |
i |
Running index |
Electrical isolation/insulation of the voltage ranges
Type |
R-IB IL PWM/2-PAC | |
Common potentials |
||
24 V main voltage UM, 24 V segment voltage US and GND are on the same potential. FE represents a separate potential area. |
||
Separate potentials in the system of bus coupler/feed module and I/O module |
||
Test distance |
Test voltage | |
5 V supply incoming remote bus/7.5 V supply (bus logic) |
500 V AC, 50 Hz, 1 min. | |
5 V supply to further remote bus/7.5 V supply (bus logic) |
500 V AC, 50 Hz, 1 min. | |
7.5 V supply (bus logic)/24 V supply (peripherals) |
500 V AC, 50 Hz, 1 min. | |
7.5 V supply (bus logic)/5 V supply (peripherals) |
500 V AC, 50 Hz, 1 min. | |
24 V supply (peripherals)/function earth |
500 V AC, 50 Hz, 1 min. | |
5 V supply (peripherals)/function earth |
500 V AC, 50 Hz, 1 min. |
Error messages to the higher-level control or computer system
Type |
R-IB IL PWM/2-PAC | |
Error message |
Short-circuit/overload of a 24 V output Short-circuit/overload of a 5 V output Under or over the operating voltage |
Approvals |
The current approvals can be found at www.boschrexroth.com. |
Dimensions
Type |
R-IB IL PWM/2-PAC | |
A |
mm |
24.4 |
B |
mm |
136.8 |
C |
mm |
71.5 |
Note on dimensions |
The depth applies when using a support rail TH 35-7.5 (acc. to EN 60715). |