The pressure transmitter series HDA 8400 has been specifically developed for the OEM market, e.g. in mobile applications. Like most of our pressure transmitter series, the HDA 8400 is based on a robust and long-life, thin-film sensor.

All parts (sensor and pressure connection) which are in contact with the fluid are made of stainless steel and are welded together. This means that there are no sealing points in the interior of the sensor. The possibility of leakage is excluded.

The pressuremore
Unit of Measure

Specifications

Model Code Description

HDA 8486-B-3000-000(PSI)

Input Overload Pressure

3000 psi

DC Power Supply Voltage

12 to 30 V

Division

ELECTRONICS

Product Group Family

PRESSURE TRANSDUCERS

Product

PRESSURE TRANSDUCERS

Environmental Conditions

Industry Standards/Certifications

CE Mark EN 61000-6-1/2/3/10

CUL®US Mark

Certificate No.: E318391

Vibration Resistance According to DIN EN 60068-2-6 at 10 to 500 Hz

≤ 25 g

Shock Resistance According to DIN EN 60068-2-6 at 10 to 500 Hz Per 6 ms

≤ 100 g

Operating Temperature [Min]

-13 ºF

Operating Temperature Range

185 ºF

Compensated Temperature Range

-13 to 185 ºF

Storage Temperature Range

-40 to 212 ºF

Fluid Temperature Range

-13 to 257 ºF

Protection Class According To DIN EN 605293

IP 67

Input Data

Mechanical Connection Type

1/4"-18 NPT, Male

Housing Material

Stainless Steel

Input Burst Pressure

14500 psi

Wetted Material

Stainless Steel, O-Ring FKM

Operating Pressure [Min]

0 psi

Operating Pressure (Max)

3000 psi

Torque Value

40 N·m

Other Data

Weight

0.12 lb

Electrical Connection

Male M12, 4 Pole

Note for CUL®US Mark

9.3 UL 61010; Class 2; UL 1310/1585; LPS UL 60950

Pin Connection 1

+UB

Pin Connection 2

No Connection

Pin Connection 3

0 Voltage

Pin Connection 4

Signal

Residual Ripple of Supply Voltage

≤ 5 %

Life Expectancy (0 to 100% Full Scale (FS))

> 10 Million Cycles

Output Data

Output Signal

0-10 V, 3 Conductor

Output Typical Accuracy According to DIN 16086, Terminal Based (Full Scale)

≤ ± 0.5 %

Output Typical Accuracy Best Fit Straight Line (B.F.S.L) (Full Scale)

≤ ± 0.25 %

Output Maximum Accuracy Best Fit Straight Line (B.F.S.L) (Full Scale)

≤ ± 0.5 %

Output Typical Temperature Compensation Zero Point (Full Scale)

≤ ± 0.015 %/°C

Output Maximum Temperature Compensation Zero Point (Full Scale)

≤ ± 0.025 %/°C

Output Typical Temperature Compensation Span (Full Scale)

≤ ± 0.015 %/°C

Output Maximum Temperature Compensation Span (Full Scale)

≤ ± 0.025 %/°C

Output Maximum Non-Linearity at Maximum Setting to DIN 16086 (Full Scale)

≤ ± 0.3 %

Output Maximum Hysteresis (Full Scale)

≤ ± 0.4 %

Output Repeatability (Full Scale)

≤ ± 0.1 %

Output Rise Time

≤ 1.5 ms

Output Long-Term Drift Per Year (Full Scale)

≤ ± 0.3 %