Proportional Throttle Valve - Series TDA

Where to Buy

The proven 2-way proportional throttle valves series TDA feature a precise control of large oil flows for an efficient, reliable operation.

Technical Specifications

Product Series: Throttle valve
Operation Type: Pilot
Actuation Type: Proportional
Function: 2-way
Mounting Type: Slip-in cartridge
Mounting Position: Unrestricted
Configuration: N/A
Maximum Operating Pressure: 350 bar
Maximum Flow Rate: Depending on size, 220 - 9500 L/min
Flow Rate: Nominal flow, 50 % of nominal flow
Flow Direction: A to B, B to A
Maximum Operating Temperature: 60 °C
Minimum Operating Temperature: -20 °C
Seal Material: NBR, FPM
For Fluid Type: Hydraulic oil according to DIN 51524, Water Glycol
Weight: 3.1 to 87 kg Depending on Size
Body Material: Steel/Cast iron (cover)

Safety Warning

Full Product Description

Parker 2-way proportional throttle valves series TDA provide outstanding characteristics like high resolution and reproducibility as well as a favourable price/performance ratio for a reliable and cost-effective operation. The TDA valve is used to control large oil flows. In combination with the digital power amplifier PCD00A-400 the valve parameters can be saved, changed and duplicated.

Markets:
• Industrial
• Molding

Features/Benefits:
• Proven, very robust design with cavity and mounting pattern according to ISO 7368 - allows reliable operation
• 8 sizes NG16 up to NG100 - wide range of sizes, fits most hydraulic systems
• Requires less pilot oil - enables higher energy efficiency
• High resolution and reproducibility - for improved product accuracy
• Short delivery time - no warehousing necessary
• Fail-safe function at power failure
• Leak-free from port B to A
• Pressure differential up to 350 bar possible

Applications:
• General presses
• Die cast
• Injection molding

Technical functionality:
The TDA valve has a 3-stage design consisting of the first solenoid operated pilot stage with a spool in sleeve design, the second pilot stage with the control pring and the sequence spool and as main stage the poppet in the sleeve. The proportional solenoid operates the pilot spool against the feedback of the control spring and controls the position of the sequence spool. The main poppet follows the position of the sequence spool and provides an open area for flow from B to A (optional A to B) in proportion to the solenoid current. The poppet is positioned independently of the differential pressure, which can become as high as the maximum working pressure.

Related Documents

Literature and Reference Materials
CATALOGUE - 2-Way Proportional Throttle Valve Series TDA
CATALOGUE - Hydraulic Valves Industrial Standard, Offline Version--MSG11-3500/UK
CATALOGUE - Hydraulic Valves Industrial Standard, Online Version--MSG11-3500/UK
GENERAL INSTRUCTIONS - for Industrial Hydraulic Valves
2-Way Proportional Throttle Valve Catalog - TDA Series (North America)

Compliance, Certifications & Safety
CERTIFICATE - DIN ISO 9001:2015 Certificate ISDE
CERTIFICATE - Position Paper ISDE 2006/42/EC and EN ISO 13849

Product Demos & Tutorials
PRODUCT VIDEO - Proportional Slip-in Valves

Products

Port Connection

Flow Rate

Function

Seal Material

Input Voltage

Port Connection

Flow Rate

Function

Seal Material

Input Voltage

TDA016EW06A2NXW

NG16

50 % of nominal flow

Flow direction from A to B

NBR

16 VDC

1__NG16 __1

2__50 % of nominal flow __2

3__Flow direction from A to B __3

4__NBR __4

5__16 VDC __5

TDA016EW06B2NLW

NG16

50 % of nominal flow

Flow direction from B to A

NBR

6 VDC

1__NG16 __1

2__50 % of nominal flow __2

3__Flow direction from B to A __3

4__NBR __4

5__6 VDC __5

TDA016EW06B2NXW

NG16

50 % of nominal flow

Flow direction from B to A

NBR

16 VDC

1__NG16 __1

2__50 % of nominal flow __2

3__Flow direction from B to A __3

4__NBR __4

5__16 VDC __5

TDA016EW06B2VXW

NG16

50 % of nominal flow

Flow direction from B to A

FPM

16 VDC

1__NG16 __1

2__50 % of nominal flow __2

3__Flow direction from B to A __3

4__FPM __4

5__16 VDC __5

TDA016EW09A2NLW

NG16

Nominal Flow

Flow direction from A to B

NBR

6 VDC

1__NG16 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__6 VDC __5

TDA016EW09A2NXW

NG16

Nominal Flow

Flow direction from A to B

NBR

16 VDC

1__NG16 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__16 VDC __5

TDA016EW09B2NLW

NG16

Nominal Flow

Flow direction from B to A

NBR

6 VDC

1__NG16 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__6 VDC __5

TDA016EW09B2NXW

NG16

Nominal Flow

Flow direction from B to A

NBR

16 VDC

1__NG16 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__16 VDC __5

TDA016EW09B2VXW

NG16

Nominal Flow

Flow direction from B to A

FPM

16 VDC

1__NG16 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__FPM __4

5__16 VDC __5

TDA025EW06A2NXW

NG25

50 % of nominal flow

Flow direction from A to B

NBR

16 VDC

1__NG25 __1

2__50 % of nominal flow __2

3__Flow direction from A to B __3

4__NBR __4

5__16 VDC __5

TDA025EW06B2NLW

NG25

50 % of nominal flow

Flow direction from B to A

NBR

6 VDC

1__NG25 __1

2__50 % of nominal flow __2

3__Flow direction from B to A __3

4__NBR __4

5__6 VDC __5

TDA025EW06B2NXW

NG25

50 % of nominal flow

Flow direction from B to A

NBR

16 VDC

1__NG25 __1

2__50 % of nominal flow __2

3__Flow direction from B to A __3

4__NBR __4

5__16 VDC __5

TDA025EW06B2VXW

NG25

50 % of nominal flow

Flow direction from B to A

FPM

16 VDC

1__NG25 __1

2__50 % of nominal flow __2

3__Flow direction from B to A __3

4__FPM __4

5__16 VDC __5

TDA025EW09A2NLW

NG25

Nominal Flow

Flow direction from A to B

NBR

6 VDC

1__NG25 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__6 VDC __5

TDA025EW09A2NXW

NG25

Nominal Flow

Flow direction from A to B

NBR

16 VDC

1__NG25 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__16 VDC __5

TDA025EW09B2NLW

NG25

Nominal Flow

Flow direction from B to A

NBR

6 VDC

1__NG25 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__6 VDC __5

TDA025EW09B2NXW

NG25

Nominal Flow

Flow direction from B to A

NBR

16 VDC

1__NG25 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__16 VDC __5

TDA025EW09B2VXW

NG25

Nominal Flow

Flow direction from B to A

FPM

16 VDC

1__NG25 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__FPM __4

5__16 VDC __5

TDA032EW09A2NLW

NG32

Nominal Flow

Flow direction from A to B

NBR

6 VDC

1__NG32 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__6 VDC __5

TDA032EW09A2NXW

NG32

Nominal Flow

Flow direction from A to B

NBR

16 VDC

1__NG32 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__16 VDC __5

TDA032EW09B2NLW

NG32

Nominal Flow

Flow direction from B to A

NBR

6 VDC

1__NG32 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__6 VDC __5

TDA032EW09B2NXW

NG32

Nominal Flow

Flow direction from B to A

NBR

16 VDC

1__NG32 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__16 VDC __5

TDA032EW09B2VXW

NG32

Nominal Flow

Flow direction from B to A

FPM

16 VDC

1__NG32 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__FPM __4

5__16 VDC __5

TDA040EW09A2NLW

NG40

Nominal Flow

Flow direction from A to B

NBR

6 VDC

1__NG40 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__6 VDC __5

TDA040EW09A2NXW

NG40

Nominal Flow

Flow direction from A to B

NBR

16 VDC

1__NG40 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__16 VDC __5

TDA040EW09A2VXW

NG40

Nominal Flow

Flow direction from A to B

FPM

16 VDC

1__NG40 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__FPM __4

5__16 VDC __5

TDA040EW09B2NLW

NG40

Nominal Flow

Flow direction from B to A

NBR

6 VDC

1__NG40 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__6 VDC __5

TDA040EW09B2NXW

NG40

Nominal Flow

Flow direction from B to A

NBR

16 VDC

1__NG40 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__16 VDC __5

TDA040EW09B2VXW

NG40

Nominal Flow

Flow direction from B to A

FPM

16 VDC

1__NG40 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__FPM __4

5__16 VDC __5

TDA050EW09A2NLW

NG50

Nominal Flow

Flow direction from A to B

NBR

6 VDC

1__NG50 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__6 VDC __5

TDA050EW09A2NXW

NG50

Nominal Flow

Flow direction from A to B

NBR

16 VDC

1__NG50 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__16 VDC __5

TDA050EW09B2NLW

NG50

Nominal Flow

Flow direction from B to A

NBR

6 VDC

1__NG50 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__6 VDC __5

TDA050EW09B2NXW

NG50

Nominal Flow

Flow direction from B to A

NBR

16 VDC

1__NG50 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__16 VDC __5

TDA050EW09B2VLW

NG50

Nominal Flow

Flow direction from B to A

FPM

6 VDC

1__NG50 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__FPM __4

5__6 VDC __5

TDA050EW09B2VXW

NG50

Nominal Flow

Flow direction from B to A

FPM

16 VDC

1__NG50 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__FPM __4

5__16 VDC __5

TDA063EW09A2NXW

NG63

Nominal Flow

Flow direction from A to B

NBR

16 VDC

1__NG63 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__16 VDC __5

TDA063EW09B2NLW

NG63

Nominal Flow

Flow direction from B to A

NBR

6 VDC

1__NG63 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__6 VDC __5

TDA063EW09B2NXW

NG63

Nominal Flow

Flow direction from B to A

NBR

16 VDC

1__NG63 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__16 VDC __5

TDA063EW09B2VLW

NG63

Nominal Flow

Flow direction from B to A

FPM

6 VDC

1__NG63 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__FPM __4

5__6 VDC __5

TDA063EW09B2VXW

NG63

Nominal Flow

Flow direction from B to A

FPM

16 VDC

1__NG63 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__FPM __4

5__16 VDC __5

TDA080EW09A2NLW

NG80

Nominal Flow

Flow direction from A to B

NBR

6 VDC

1__NG80 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__6 VDC __5

TDA080EW09A2NXW

NG80

Nominal Flow

Flow direction from A to B

NBR

16 VDC

1__NG80 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__16 VDC __5

TDA080EW09B2NLW

NG80

Nominal Flow

Flow direction from B to A

NBR

6 VDC

1__NG80 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__6 VDC __5

TDA080EW09B2NXW

NG80

Nominal Flow

Flow direction from B to A

NBR

16 VDC

1__NG80 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__16 VDC __5

TDA100EW09A2NXW

NG100

Nominal Flow

Flow direction from A to B

NBR

16 VDC

1__NG100 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__16 VDC __5

TDA100EW09B2NLW

NG100

Nominal Flow

Flow direction from B to A

NBR

6 VDC

1__NG100 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__6 VDC __5

TDA100EW09B2NXW

NG100

Nominal Flow

Flow direction from B to A

NBR

16 VDC

1__NG100 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__NBR __4

5__16 VDC __5

TDA032EW09A2VXW

NG32

Nominal Flow

Flow direction from A to B

FPM

16 VDC

1__NG32 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__FPM __4

5__16 VDC __5

TDA016EW06A2NLW

NG16

50 % of nominal flow

Flow direction from A to B

NBR

6 VDC

1__NG16 __1

2__50 % of nominal flow __2

3__Flow direction from A to B __3

4__NBR __4

5__6 VDC __5

TDA016EW06A2VLW

NG16

50 % of nominal flow

Flow direction from A to B

FPM

6 VDC

1__NG16 __1

2__50 % of nominal flow __2

3__Flow direction from A to B __3

4__FPM __4

5__6 VDC __5

TDA016EW09A2VLW

NG16

Nominal Flow

Flow direction from A to B

FPM

6 VDC

1__NG16 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__FPM __4

5__6 VDC __5

TDA016EW09A2VXW

NG16

Nominal Flow

Flow direction from A to B

FPM

16 VDC

1__NG16 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__FPM __4

5__16 VDC __5

TDA025EW06B2VLW

NG25

50 % of nominal flow

Flow direction from B to A

FPM

6 VDC

1__NG25 __1

2__50 % of nominal flow __2

3__Flow direction from B to A __3

4__FPM __4

5__6 VDC __5

TDA025EW09A2VLW

NG25

Nominal Flow

Flow direction from A to B

FPM

6 VDC

1__NG25 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__FPM __4

5__6 VDC __5

TDA025EW09A2VXW

NG25

Nominal Flow

Flow direction from A to B

FPM

16 VDC

1__NG25 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__FPM __4

5__16 VDC __5

TDA025EW09B2VLW

NG25

Nominal Flow

Flow direction from B to A

FPM

6 VDC

1__NG25 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__FPM __4

5__6 VDC __5

TDA040EW09B2VLW

NG40

Nominal Flow

Flow direction from B to A

FPM

6 VDC

1__NG40 __1

2__Nominal Flow __2

3__Flow direction from B to A __3

4__FPM __4

5__6 VDC __5

TDA063EW09A2NLW

NG63

Nominal Flow

Flow direction from A to B

NBR

6 VDC

1__NG63 __1

2__Nominal Flow __2

3__Flow direction from A to B __3

4__NBR __4

5__6 VDC __5

Proportional Throttle Valve - Series TDA | Product Series

Port Connection

Flow Rate

Function

Seal Material

Input Voltage

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Proportional Throttle Valve - Series TDA

Technical Specifications

Full Product Description

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