T590X & T590X Manifold Mount I/P Transducer

I/P transducer converts a variable electrical signal to a linearly proportional pneumatic output. The small size, light weight and immunity to shock and vibration make it ideal for use in process control applications.

Manifold mount I/P transducer converts a variable electrical signal to a low flow proportional pneumatic output. The compact size, light weight and immunity to shock and vibration make it ideal for use in process control valve positioner applications.

The Type-590X I/P (current to pressure) transducer converts a variable electrical signal to a linearly proportional pneumatic output. Conversion technology utilising open loop control and a low mass magnet produces accurate pressure control at an economical cost. The Type-590X can be mounted in any position and is impervious to RFI/EMI interference. Multiple choices for wiring and porting simplify the installation and reduce the time required to do so. In addition to standard wall, panel or pipe mounting, optional DIN rail and manifold mounting kits are available. The Type-925 Multi-function Manifold provides a common supply port and individual shutoff valves for sets of 3, 5, 10 or 15 units.

The Type-590X Manifold mount I/P transducer converts a variable electrical signal to a low flow proportional pneumatic output. Its compact size, light weight and immunity to shock and vibration make it ideal for use in process control valve positioner applications.

 

Specifications

Functional Specifications

P Connection (1/8″ NPT)
Input 4-20 mA
Output 3-15 psig 0.20-1.0 BAR
3-27 psig 0.20-1.8 BAR
6-30 psig 0.40-2.0 BAR
Air Consumption 6 scfh (170 Nl/hr)
Supply Pressure 3-15: 22 psig (1.5 BAR) max.
3-27, 6-30: 42 psig (2.8 BAR) max.
Flow Capacity 2.4 scfm max.
Temperature Limit -40°F to 158°F (-40°C to 70°C)
Low Temperature Option (L): -67°F to 158°F (-55°C to 70°C)
Relative Humidity 75% average – 95% short time non-condensing
Impedance 260 Ohms @ 70°F (21°C)
Loop Load 5.2 volts @ 70°F (26°C)

Performance Specifications

Linearity
(Independent)
<±0.5% of span
Hysteresis <±0.3% of span
Deadband <±0.1% of span
Repeatability <±0.3% of span; <±0.15% of span typical
Mounting Orientation <±0.5% / 90 degree change
Air Supply Sensitivity <.3% per 1.5 psig change
Vibration Effect <±1% up to 10g and 20-80 Hz
Temperature Effect <±0.75% / 100°F change

Physical Specifications

Housing NEMA 1 (IP 20)
Port Sizes 1/8″ NPT (P-Connection)
Media Clean, dry, oil-free, instrument air,
filtered to 40 micron
Electrical
Connections
Terminal block
Mounting Pipe or DIN rail
Materials Housing: Chromate-treated aluminum, plastic
Elastomers: Buna-N
Trim: Stainless steel; brass; zinc-plated steel
Cover: Polypropylene
Weight 0.75 lbs (0.34 kg)

 

Functional Specifications

M Connection (Manifold)
Input 4-20 mA
Output 3-15 psig 0.20-1.0 BAR
3-27 psig 0.20-1.8 BAR
6-30 psig 0.40-2.0 BAR
Air Consumption 2.00 scfh @ 20 psig supply
4.94 scfh @ 85 psig supply
8.36 scfh @ 150 psig supply
Supply Pressure 150 psig (10.0 BAR) max
Flow Capacity Same as Air Consumption
Temperature Limit -67°F to 185°F (-55°F to 85°C)
Relative Humidity 75% average – 95% short time non-condensing
Impedance 260 Ohms @ 70°F
Loop Load 5.2 volts @ 70°F

Performance Specifications

Linearity
(Independent)
<±0.5% of span
Hysteresis <±0.3% of span
Deadband <±0.1% of span
Repeatability <±0.3% of span; <±0.15% of span typical
Mounting Orientation <±0.5% / 90 degree change
Air Supply Sensitivity <.6% per 25 psig change (metric)
Vibration Effect <±1% up to 10g and 20-80 Hz
Temperature Effect <±0.75% / 100F change (metric)

Physical Specifications

Housing NEMA 1 (IP 20)
Port Sizes 3/16″ NPT (M-Connection)
Media Clean, dry, oil-free, instrument air,
filtered to 40 micron
Electrical
Connections
Terminal block
Mounting Manifold
Materials Housing: Chromate-treated aluminium, plastic
Elastomers: Buna-N
Trim: Stainless steel; brass; zinc-plated steel
Cover: Polypropylene
Weight 0.75 lbs (0.34 kg)

 

Applications

The small size, light weight and immunity to shock and vibration make it ideal for use in process control applications.