The new generation of smart sensors is designed to generate further relevant information in addition to the operation data. This ensures the support of dynamic, real-time optimised and self-organizing processes, which optimizes the availability as well as the resource consumption and reduces operating costs.

The pressure transmitter series HPT 1400S has been specifically developed for series application and for the use in extremely limited space conditions.

Like most of our pressure transmitter series, the HPT 1400S is based on a robust and long-life, thin-film sensor.
Unit of Measure

Specifications

Industry Standards/Certifications

N/A CE Mark: EN 61000-6-1 / -2 / -3 / -4

Mechanical Connection Type

N/A G1/4 A ISO 1179-2, Male with Orifice 0.5 mm

Housing Material

N/A Stainless Steel

Burst Pressure

N/A 2000 bar

Mechanical Connection Size

N/A G1/4, Male

Output Signal

N/A CANopen

Electrical Connection

N/A Male M12, 5 Pole

DC Power Supply Voltage

N/A 9 to 35 V

Model Code Description

N/A HPT 1448S-F11-0600-000

Output Maximum Accuracy to DIN 16086 At Maximum Setting (Full Scale)

N/A ≤ ± 1.0 %

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

N/A ≤ ± 0.5 %

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

N/A ≤ ± 0.25 %

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

N/A ≤ ± 0.5 %

Output Typical Temperature Compensation Zero Point (Full Scale)

N/A ≤ ± 0.0125 %/°C

Output Maximum Temperature Compensation Zero Point (Full Scale)

N/A ≤ ± 0.025 %/°C

Output Typical Temperature Compensation Over Range (Full Scale)

N/A ≤ ± 0.0125 %/°C

Output Maximum Temperature Compensation Over Range (Full Scale)

N/A ≤ ± 0.025 %/°C

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

N/A ≤ ± 0.3 %

Seal Material

N/A FKM

Output Maximum Hysteresis (Full Scale)

N/A ≤ ± 0.4 %

Output Repeatability (Full Scale)

N/A ≤ ± 0.1 %

Output Rise Time

N/A ≤ 1 ms

Output Long-Term Drift Per Year (Full Scale)

N/A ≤ ± 0.2 %

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

N/A ≤ 25 g

Pin Connection 1

N/A Shield

Pin Connection 2

N/A +UB

Pin Connection 3

N/A 0 Voltage

Pin Connection 4

N/A CAN High

Pin Connection 5

N/A CAN Low

Current Consumption

N/A ≤ 25 mA

Residual Ripple of Supply Voltage

N/A ≤ 5 %

Input Overload Pressure

N/A 1000 bar

Input Measuring Pressure Range

N/A 0 to 600 bar

Operating Temperature [Min]

N/A -40 ºC

Operating Temperature [Max]

N/A 100 ºC

Compensated Temperature Range

N/A -25 to 85 ºC

Storage Temperature Range

N/A -40 to 100 ºC

Medium Temperature Range

N/A -40 to 125 ºC

Degree of Protection

N/A IP 67

Torque Value

N/A 20 N·m

Weight

N/A 0.10 lb

SMART Functions

Operating Data Logging

N/A Pressure (Min/Max/Average value) Operating time as example

General (hour counter)

Arrhenius value (temp. compensated operating time)

Measuring Channel-Related Events

N/A General measuring channel-related operating time

Events counter

Statistic for the actual use (operating per Measuring range segment/over/undershooting, overload, etc.)

Additional Information

N/A All of the parts in contact with the fluid (sensor and pressure port) are made of stainless steel and are welded together. This means that there are no sealing points in the interior of the sensor. The risk of leakage has been eliminated. The transmitters are available providing various pressure ranges. A basic accuracy of ≤ ± 0.5% FS, combined with a small temperature drift, opens up a broad range of applications for the HPT 1400S.

The measured pressure value is digitized and made available to the CAN field bus system via the CANopen protocol. The instrument parameters can be viewed and configured by the user using standard CAN software.

In addition, the HPT 1400S provides a wide range of additional smart information.

Note

N/A Reverse polarity protection of the supply voltage, excess voltage, override and short circuit protection are provided.