Integrated or external pressure controller for VAT mechatronic vacuum control valves offer a wide range of configuration options.

They convince through ...

    • Very short response times
    • Fast and precise pressure control
    • Precise valve position control
    • Learning algorithms for automated control optimization
    • Digital and analog inputs for sensor signals
    • Choice of local or remote control
    • Integrated display for local status indication

Learning Algorithms for Automated Control Optimization

With the integrated learning function, the pressure controller independently adapt the valve control to the prevailing process conditions within defined limits. This increases the effectiveness of the valve control in terms of speed, conductance, and the avoidance of vibrations and shocks.

By operating the LEARN function – only needs to be performed once during start-up – the relevant system parameters are determined automatically. Due to the adaptive algorithm, the pressure regulator continuously adjusts to changes in gas flow or gas type, ensuring optimal pressure control at all times.

In position control mode, the valve plate can be moved to any position. Status and position are indicated via the 4-digit display.

VAT pressure controllers can be controlled with an external PC via Logic, RS232, RS485, DeviceNet®, Ethernet, Profibus, CC-Link or EtherCAT interface. For this purpose, VAT offers special configuration, control and diagnostic software for Windows, which is automatically loaded when a PC is connected to the controller.

The RS232 interface and the fieldbuses can also be used for digital signal input to close and open the valve. In addition, digital outputs are available for the signals "closed" and / or "open".

The control via the logic interface can be done optionally via digital and analog signals.

Since the pressure controllers are each designed for specific vacuum valves, you must first identify the corresponding valve type to find out which options are available for this valve type.

 

 

Technical Data

 

Integrated Controller for the Series 61.3, 61.6, 61.7, 95.3

Integrated
Connection layout

Available interfaces:

    • Logic
    • RS232
    • RS485
    • DeviceNet®
    • Ethernet
    • Profibus
    • CC-Link
    • EtherCAT
Integrated
Click to enlarge
 
Power consumption
– Controller + motor
– Power failure option (PFO)
– Sensor power supply (SPS)

 		 24 V DC (±10%) @ 0.5 V pk-pk
max. 40 W
max. 10 W
max. 36 W

 
Sensor supply 24 V DC or ±15 V DC
Sensor input
– Signal voltage
– Input resistance
– Resolution
– Sampling rate


 
0 – 10 V DC linear with pressure
Ri = 100 kΩ
0.23 mV
10 ms


 
Control accuracy 5 mV or 0.1% of setpoint
(the higher value applies)
Position resolution depending on valve type
Protective system IP 30
Temperature
– Valve Body

– Controller

 
≤ 120 °C (Series 61.6, 95.3)
≤ 150 °C (Series 61.3, 61.7)
max. 50°C (≤ 35 °C recommended)

 

 

Integrated Controller for the Series 62.0, 64.8, 67.0

Integrated
Connection layout

 

Available interfaces:

    • Logic
    • RS232
    • RS485
    • DeviceNet®
    • Profibus
    • EtherCAT
Integrated
Click to enlarge
 
Power consumption
– Controller + motor
– Power failure option (PFO)
– Sensor power supply (SPS)		 24 V DC (±10%) @ 0.5 V pk-pk
max. 150 W
max. 10 W
max. 40 W
Sensor supply 24 V DC or ±15 V DC
Sensor input
– Signal voltage
– Input resistance
– Resolution
– Sampling rate
0 – 10 V DC linear with pressure
Ri = 100 kΩ
0.23 mV
2 ms
Control accuracy 5 mV or 0.1% of setpoint
(the higher value applies)
Position resolution depending on valve type
Protective system IP 40
Temperature
– Valve Body

– Controller
≤ 80 °C (Series 62.0, 64.8)
≤ 120 °C (Series 67.0)
max. 50°C (≤ 35 °C recommended)

 

Integrated Controller for the Series 64.2

Integrated
Connection layout

Available interfaces:

    • Logic
    • RS232
    • RS485
    • DeviceNet®
    • Ethernet
    • Profibus
    • CC-Link
    • EtherCAT
Integrated
Click to enlarge
 
Power consumption
– Controller + motor
– Power failure option (PFO)
– Sensor power supply (SPS)		 24 V DC (±10%) @ 0.5 V pk-pk
max. 54 W
max. 10 W
max. 36 W
Sensor supply 24 V DC or ±15 V DC
Sensor input
– Signal voltage
– Input resistance
– Resolution
– Sampling rate
0 – 10 V DC linear with pressure
Ri = 100 kΩ
0.23 mV
10 ms
Control accuracy 5 mV or 0.1% of setpoint
(the higher value applies)
Position resolution depending on valve type
Protective system IP 20
Temperature
– Valve Body
– Controller
≤ 150 °C
max. 50°C (≤ 35 °C recommended)

 

Integrated Controller for the Series 65.3

Integrated
Connection layout

Available interfaces:

    • Logic
    • RS232
    • RS485
    • DeviceNet®
    • Ethernet
    • Profibus
    • CC-Link
    • EtherCAT
Integrated
Click to enlarge
 
Power consumption
–Controller + motor
– Power failure option (PFO)
– Sensor power supply (SPS)		 24 V DC (±10%) @ 0.5 V pk-pk
max. 50 W
max. 10 W
max. 36 W
Sensor supply 24 V DC or ±15 V DC
Sensor input
– Signal voltage
– Input resistance
– Resolution
– Sampling rate
0 – 10 V DC linear with pressure
Ri = 100 kΩ
0.23 mV
10 ms
Control accuracy 5 mV or 0.1% of setpoint
(the higher value applies)
Position resolution depending on nominal diameter
Protective system IP 20
Temperature
– Valve Body
– Controller
≤ 120 °C
max. 50°C (≤ 35 °C recommended)

 

Integrated Controller for the Series 65.5

Integrated
Connection layout

Available interfaces:

    • Logic
    • RS232
    • RS485
    • DeviceNet®
    • Profibus
    • EtherCAT
Integrated
Click to enlarge
 
Power consumption
– Controller + motor
– Power failure option (PFO)
– Sensor power supply (SPS)		 24 V DC (±10%) @ 0.5 V pk-pk
max. 110 W
max. 10 W
max. 40 W
Sensor supply 24 V DC or ±15 V DC
Sensor input
– Signal voltage
– Input resistance
– Resolution
– Sampling rate
0 – 10 V DC linear with pressure
Ri = 100 kΩ
0.23 mV
2 ms
Control accuracy 5 mV or 0.1% of setpoint
(the higher value applies)
Position resolution depending on nominal diameter
Protective system IP 40
Temperature
– Valve Body
– Controller
≤ 120 °C
max. 50°C (≤ 35 °C recommended)
 

Electrical Connections

 
  CONNECTION TYPE
POWER Series 61.3, 61.6, 61.7, 95.3, 62.0,
67.0, 64.8, 65.3, 65.5
64.2
 		 DB-15 male

Weidmüller SL 3.50 male
 
SENSOR Sensor input
Sensor power supply		 DB-15 female
INTERFACE Logic, RS232, RS485
Ethernet (with Logic I/O)
DeviceNet® (with Logic I/O)
Profibus (with Logic I/O)
CC-Link (with Logic I/O)
CC-Link (with Logic I/O) 64.2
EtherCAT (with Logic I/O)		 DB-25 female
RJ 45
Micro-style M12 male
DB-9 female
DB-9 female
5-pole screw terminal
2 \u001f RJ 45
Logic I/O Series 61.3, 61.6, 61.7, 95.3, 62.0,
67.0, 64.8, 65.3, 65.5
64.2		 DB-15 male

Binder M8 female
SERVICE Connector: all except below
64.2		 USB type B
DB-15 HD female
 
 

Additional Options

 
Sensor Power Supply (SPS) ±15V DC
Power Failure Option (PFO) Valve opens/closes in defined way automatically
Valve Cluster Synchronically control of several valves in master slave mode
Accessories
    • Control Performance Analyzer (CPA)-Software
    • Service Box
    • Control Panel
    • Connector kit for various interfaces
    • Power supply unit (input 100- 240 V AC, output 24 V DC / 4 A)
 

Calibration, Control, Analysis via PC

Valve calibration and control via PC using the CPA software provided by VAT is very simple and intuitive. The following functions are provided:

    • Setup
    • Operation
    • Monitoring
    • Diagnostics
    • Graphical visualization of pressure behavior
    • Programming of control profiles
    • Recording of control sequences
    • Several options for data analysis and process optimization

via Service Box and Control Panel

For simplified handling, calibration, control and analysis is also possible via a service box and a control panel integrated in a standard 19" rack. The range of options is comparable to the PC version, only the data visualization is limited due to the compact design and the simplified display.