Product name: N@@-type CPU Units with 30 I/O Points.
Specifications: Power Supply, 100 to 240 VAC; Inputs, 8; Outputs, 6;
Output type: Relay.
Program capacity: 8K steps.
memory Data capacity: 8K words.
External powersupply(24 VDC): --.
Current consumption: 5 V, 0.17A; 24 V,0.07A.
Standards: UC1, N, L, CE CP1H-XA40DR-A PDF.
The CP1E Programmable Controller: Economical, Easy to use, and Efficient
CP1H-XA40DR-A
The E@@(S)-type Basic CPU Units provide cost,
performance and easy application with only basic functionality.
The N@@(S@) and NA-types Application CPU Units,
support Programmable Terminal connection, position control,
and inverter connection. C500-ID Special I/O Unit ID Sensor Unit For the C500-IDS02 C500-IDA02 CP1H-XA40DR-A PDF. Model: CPM2C-20CDR-D. CPU Unit: Units with 20 I/O points.
I/O terminal block.
Inputs: 12 inputs.
Outputs: 8 outputs.
Input type: 24 VDC.
Output type: relay.
Internal clock: --.C200H-CPU23-E CPUs
High Spec, Small Rack Style
The C200H-CPU21-E and C200H-CPU23-E controllers offer increased I/O capacity and the same basic functionality as the OEM versions. In addition,
these controllers offer an extended instruction set,
these controllers offer an extended instruction set,
expansion CP1H-XA40DR-A PDF. A variety of CPUs are available with various memory and I/O configurations allowing selection based on application requirements.Unit type: 10 I/O points 6 inputs; 4 outputs, Connector.
Input: 6 points: 24 VDC.
Output: 4 points: transistor (sinking).
Clock: Yes.
Slaves with the Complex Functionality Needed,
for Distributed Blocks.
Programmable Slaves combine devices, such as sensors and actuators,
into one functional unit that is treated as a DeviceNet sslave CP1H-XA40DR-A datasheet.
Programmable Slaves greatly facilitate device distribution,
and functional organization.
They help standardize programming between units and reduce the amount of,
programming required at the master.
I/O and operattional checks can be performed for each functional unit,
rather than waiting CP1H-XA40DR-A datasheet.
for final system assembly, as with conventional distributed I/O systems.