Output: 6 channels.
Input (resolution): 0~4000; -4000~4000; 0~12000; -12000~12000; -16000~16000.
Output: DC-12V~12V; 0~22mA.
Conversion speed: 6ms/ channel.
40 pin connector.
Isolation between channels.
The possibility of expanding control with intelligent function.
At the same time, the channel isolation analog module realizes high isolation voltage,
Further improve the accuracy of the benchmark Q2MEM-BAT PDF
Q2MEM-BAT
Provide support for process control using a general purpose programmable controller.
Flow meter, pressure meter, other sensors can be directly connected to analog input,
Control valve can also be directly connected to analog output.
Hardware and installation costs have been greatly reduced due to the need for an external isolation amplifier Q2MEM-BAT PDF.
High insulation strength.
Can isolate electrical interference, such as current and noise, etc..
Standard analog input module.
Isolated analog input module.
No external isolation amplifier required.
Without the use of inter channel isolation analog modules.
Using the inter channel isolation analog module. Input / output points: 4096 points.
Number of input and output elements: 8192 Q2MEM-BAT PDF.
Program capacity: 40 K step.
Processing speed: 0.0095 s.
Program memory capacity: 160 KB.
Support USB and RS232.
Support installed memory card.
Providing high speed communication between multiple CPU.
High speed and high precision data processing.
The processing speed of the real number (floating point) arithmetic has been greatly improved,
Addition instruction reached 0.014 mu s,
Therefore, it can support the request of high-speed, high-precision processing data processing.
In addition, the new addition of double precision floating ppoint arithmetic instructions,
Simplify the programming, reduces the computational error when executing complex formula Q2MEM-BAT datasheet.
Shorten the fixed scan interrupt time, high precision device.
The minimum interval of the fixed period interrrupt program is reduced to 100 s Q2MEM-BAT datasheet.
The high speed signal can be accurately obtained, which makes the contribution to the higher precision of the device.