Sepctification
Analog sensor input |
Measured variables |
pH / ORP / Antimony |
Measuring ranges |
pH/Antimony:(-2.00 ~ 16.00) pH ORP:(-2000 ~ 2000) mV |
Input impedance |
≥1012Ω |
Temperature types |
NTC10K ,Pt1000 ,Pt100 |
Temperature range |
(-10~130)℃ |
Accuracy |
pH:±0.02pH |
Antimony:±0.2pH |
ORP:±2mV |
NTC10K:(-10~60)℃, accuracy: ±0.3℃ (60~130)℃, accuracy: ±2℃ |
Pt1000 accuracy: ±0.3℃ |
Pt100 accuracy: ±0.3℃ |
Resolution |
pH/Antimony:0.01pH; ORP:1mV |
Repeatability |
0.02pH |
Temperature compensation |
Manual compensation; |
Automatic compensation: Linear, Acid, Base, Pure |
Digital sensor input |
Measured variables |
pH/ORP/Conductivity/Dissolved Oxygen/Turbidity/Sludge Concentration/Inductive Conductivity/Residual |
Chlorine/Ammonia nitrogen/Nitrate nitrogen/COD, etc. |
|
pH: (0.00 ~ 14.00) pH |
Measuring ranges |
ORP: (-2000 ~ 2000) mV |
Dissolved oxygen: (0~40) mg/L |
Saturation: (0~200)% |
Conductivity: (0~500) mS/cm |
Turbidity: (0~4000) NTU |
Sludge concentration: (0~120000) mg/L |
Inductive conductivity: (0~2000) mS/cm |
Residual chlorine: (0~ 100) mg/L |
Ammonia nitrogen: (0~ 1000) mg/L |
Nitrate nitrogen: (0~ 1000) mg/L |
COD: (0~ 1500) mg/L |
Note: Actual measurement ranges should refer to the technical data of the connected sensors. |
Output |
|
Isolated,2-channel (0/4~20) mA configurable to corresponding measurement ranges, load capacity 750Ω,output accuracy ±0.1%FS,compliant with NAMUR NE 43 |
Current output |
|
standards. |
Communication output |
Isolated, RS485 interface,Modbus-RTU communicationprotocol. |
Alarm output |
3-channel SPST (2 alarms + 1 cleaning), NO/NC type, capacity 250VAC, 5A. |
Alarm relay delay |
0~9999 seconds, adjustable. |
Electrical specifications |
Power supply |
AC:(85~265)V,50/60Hz |
DC:(21.6~26.4) V |
Power consumption |
≤28W |
Cable entries |
M20*1.5 cable gland |
Cable specification |
Spring terminals: suitable for AWG16~AWG24(0.2mm2~ 1.5mm2 )cables; |
Plug-in terminals: suitable for AWG12~AWG28(1mm2~ 2.5mm2 )cables; |
Environment |
Operating environment |
Temperature:(0 ~ 60)℃ |
Relative Humidity:10 %~85%( non-condensing) |
Storage environment |
Temperature:(-15~65)℃ |
Relative Humidity:5%~95%(non-condensing) |
Altitude :<2000m |
Ingress protection |
IP66 |
Flame Retardancy |
UL94V-0 |
Benefits
- Versatile controller eliminates the need for multiple specialized controllers and automatically recognizes digital sensors for plug-and-play convenience.
- IP66 ingress protection, suitable for more complex working conditions.
- Dual-channel design allows connection of one or two sensors, reducing user costs and providing a cost-effective solution for adding a second sensor in the future.
- Optional NB-IoT wireless communication and mobile APP for real-time data viewing.
- Power ground and signal ground design enhances anti-interference capabilities.
- 4.3-inch full-view color screen, with quick switching between digital display and real-time curve modes, facilitates monitoring of data fluctuations.
- Optoelectronic isolation (0/4~20) mA transmission output with strong interference resistance, high precision output circuit design, achieves 0.1% accuracy, and complies with the NAMUR NE43 international technical standard.
- Features manual and automatic temperature compensation, including linear, pure water, acid, and alkali solution compensation, adaptable to more conditions.
- pH electrode health self-diagnostic alert function advises users on the electrode condition post-maintenance, helping to optimize maintenance actions.
- Current simulation function enhances the maintainability of the instrument.
- Optoelectronic isolated RS485 communication.
- Storage for up to 500,000 data records.
- High and low alarm functions, hysteresis amount and hysteresis time are adjustable.
- Supports four languages: Chinese, English, Spanish, and Korean, offering more language options.
- Rack-mounted and wall-mounted installation methods available, providing flexible installation options.
Field of application
MDC-P1 controller can measure a variety of parameters including pH, ORP, conductivity, dissolved oxygen, turbidity, sludge concentration, residual chlorine, ammonia nitrogen, nitrate nitrogen, COD, and more. Its continuous monitoring data can be transmitted to a DCS system via output transmission or communicated with a computer using the Modbus-RTU protocol via RS485 interface for remote monitoring and logging. It can also control cleaning systems or pumps. The controller offers an optional NB-IoT wireless transmission module,users can access real-time site conditions on mobile devices.