Programmable Logic Controller
KV Nano series
Analog I/O unit,Voltage/current input 2 channels + Voltage/current output 1 channel KV-N3AM
*Please note that accessories depicted in the image are for illustrative purposes only and may not be included with the product.
Specifications
Model | KV-N3AM | |||
Conversion speed | 80 μs/channel *1 | |||
Conversion | A/D conversion, D/A conversion | |||
Points | A/D conversion : 2 (single end), D/A conversion : 1 | |||
Range/resolution | Voltage | -10 V to +10 V | A/D conversion : 1/8000 2.5 mV, D/A conversion : 1/8000 2.5 mV *2 | |
0 to 10 V | A/D conversion : 1/4000 2.5 mV, D/A conversion : 1/4000 2.5 mV *2 | |||
0 to 5 V | A/D conversion : 1/4000 1.25 mV, D/A conversion : 1/4000 1.25 mV *2 | |||
1 to 5 V | A/D conversion : 1/3200 1.25 mV, D/A conversion : 1/3200 1.25 mV *2 | |||
Current | 0 to 20 mA | A/D conversion : 1/4000 5 μA, D/A conversion : 1/4000 5 μA *2 | ||
4 to 20 mA | A/D conversion : 1/3200 5 μA, D/A conversion : 1/3200 5 μA *2 | |||
Conversion precision | Voltage | Without temperature | A/D conversion : | |
With temperature | A/D conversion : | |||
Current | Without temperature | A/D conversion : | ||
With temperature | A/D conversion : | |||
Input resistance | Voltage | A/D conversion : 5 MΩ | ||
Current | A/D conversion : 250 Ω | |||
Absolute maximum input | Voltage | A/D conversion : ±15 V | ||
Current | A/D conversion : ±30 mA | |||
Isolation method | Between analog input | Isolated (photocoupler, transformer) | ||
A/D , D/A conversion unit | Isolation method | Between Analog input - output | Non-isolated | |
Isolation method | Between analogu input channels | A/D conversion : Non-isolated | ||
Minimum load resistance | Voltage | D/A conversion : 1 kΩ | ||
Maximum load resistance | Current | D/A conversion : 600 Ω | ||
Special functions | ▼A/D conversion | |||
Internal current consumption | 120 mA or less | |||
Weight | 200 g | |||
*1 When the temperature fluctuation compensation is used, the temperature fluctuation compensation time of 80 μs will be added regardless of the number of channels being used. |