RO-8100

Main Characteristics and Application

ROS-8100 touch color screen reverse osmosis control system is a multi-function control system with combination of four-wire resistive type touch screen with reverse osmosis process control and online conductivity monitor, it is mainly used for the system control and water quality monitor and control of reverse osmosis system.
The instrument adopts 7-inch (standard version) or 10-inch touch screen (optional version) and 800*480 resolution to realize human-computer information interaction with rich and dynamic display effects.

PLC control and conductivity transmitter acquisition circuit;

Adopt the latest high-speed MCU computer processing system in the United States, real-time control of external IO input and relay output, project design focuses on the system's high stability, high reliability, anti-interference, the characteristics of full digital operation.

The display content of the interface:
Conductivity value monitoring interface, system input signal monitoring, output state display, dynamic system process chart, manual controlling interface, the user setting interface etc. Follow the process state of system in real time, which making the operator could completely control the whole system easily.
The instrument is available in two versions:
Single stage RO control system and double stage RO control system.
The reverse osmosis controller could monitor the conductivity of source water, first stage production water, second stage water production water at same time.
The reverse osmosis controller performs automatic system management, so that the whole system realizes full automatic control and unmanned monitoring, and is adapted to meet pure water equipment and seawater desalination reverse osmosis units in various industries.

Main Technical Index

(For Single Stage Reverse Osmosis System:)
① Collection point of input signal:
Water level of source water tank, this is for checking with or without water.(pipe water supply could be treated as Non-water pressure switch)
Low pressure pump protection
High pressure pump protection
Low pressure switch(before the high pressure pump)
High pressure switch(after the high pressure pump)
Low level of pure water tank
High level of pure water tank
Communicate switch of pre-treatment; (system standby when pre-treatment working)
Note:
High and low level of pure water tank, such as the duckbill switch need to install two switches, two switches directly connected to the high and low liquid level end; if the float switch is used, the high and low liquid level two wires are wired together.
② Controlling point of output:
Source water pump
High pressure pump
Dosing pump
Inlet valve
Outlet valve
Flush valve
Over-limit discharge valve of produced water
conductivity
Alarm relay (can connect with audible and visual alarm)
Note: Solenoid valve requires AC 220V power supply

③ Conductivity measurement
Source water conductivity : 0～5000μS/cm;
Conductivity of RO production water :0～200μS/cm；
Temperature measurement: 0-60℃
Conductivity sensor: 1.0cm-1, cable length 4.5m

④ Other parameters
Power supply:
Controller input: AC 220V/2A
Load capacity of relay output connection: Passive output
Precision: 1.5 level
Working pressure of conductance:0～0.5Mpa;
Temperature compensation: temperature compensation is calculated based on 25℃
7” Screen outline dimension：
200.4 ×146.5 x34mm (width × H x D)
7” Screen hole size：192 x 138mm (Width x High)
10” Screen outline dimension：
271×213 x36.4mm (Width × H x D)
10” Screen hole size：260 x 202mm (Width x High)
Installation: Panel mounted
Controller outline dimension:
140mm x80mm x 62mm(Wx H x D)
Controller installation way: Guide rail mounted

Front Panel

Color Touch Screen Appearance

Connection Diagram of System host

1.Connection diagram of Touch color screen display, Reverse osmosis controller and Conductivity transmitter.

Note: A separate switching power supply, DC 24V/2A, is required to power the color screen and conductivity transmitter.

2、RO Controller detailed description:

（1）Relay control output：

All output ports are 220V relay output, load current is 2A, solenoid valve requires 220V power supply

(2)Detection signal input

（3）PORT 0: PLC and touch color display communication interface （4）PORT1: PLC and Conductivity transmitter communication interface；
（5）AC-220V power supply： L1、N
（6）DC24V output ：L+、M
Note:
Due to the use of small relays (0.5A/220V,0.5A/24V DC ) in the controller, intermediate relays or contactors must be used when driving large inductive loads, and cannot be directly driven.

3、Transmitter terminal description:
A Terminals:

B Terminals:

Single stage RO System process

System Operation Interface

1、Install and connect wires correctly and connected each parts, make sure power input wire connection is correct, then turn on the power, the instrument will make a drop sound, after 5 seconds, the instrument screen enter into the system control interface directly, as showed in chart 1.

Chart 1 System control interface

System Control Interface Description

Note: The display status light green indicates the selected status.

• The system controller is in standby mode. Please log in before operating the controller. Clicking Loginwill bring up the login dialog, as shown in Chart 2;
•  

Chart 2 System Login interface

Select the " user " identity, enter the " 111111 " password to log in successfully, you can operate the controller.

3、After logging in, the system is in a shutdown state, the system defaults to manual mode. When the system is in a shutdown state, the following device switches (shown in Chart 3) can perform manual independent operations. When “Auto” is turned on, the system starts to run automatically, and the manual operation device is invalid.

Chart 3 Manual Control Interface

5、The upper right corner of the interface is the time and date of the system. The parameter has been adjusted correctly at the factory, and the user does not need to adjust it, as shown in Chart 4 below.

Chart 4 System Time and Date interface

6、Parameter setting interface, system display:

Chart 5 Parameter setting interface

Parameter setting interface description:

7、Conductivity settings interface:

Chart 6 Conductivity setting interface

Chart 7 Conductivity setting interface

8、Flushing settings interface:

Chart 8 Flushing setting interface

9、System setting interface

Chart 9 System setting interface

10、Change password interface:

Chart 10 Change password interface

10、 Fault alarm information interface:

Chart 10 Fault alarm information interface

Installation of the sensors

 To ensure the real measurement result, data distortion caused by air bubble or dead water in conductance cell should be avoided. The installation should be performed strictly according to the following drawing:

Sensor Apperance

Notes:
(1)The sensor should be installed at a lower location inthe pipe where the flow speed is steady and air bubbles are seldom generated.
(2) No matter the conductance cell is horizontally or vertially installed, it should be deeply inserted into the moving water.
(3) The conductivity signal is weak electronic signal and collecting cable should be separately installed. They should not be connected to the same group of cable joint or terminal board with the power line.
(4)When the measurement cable needs to be lengthened, it’s recommended to use the cable provided by the original manufacturer, When a longer distance is involved, the length of the cable (<30m) should be agreed on before delivery, and if the length is over 30m, a transmitter should be used.

Trouble shooting

Complete Instrument Set