HT24 Piezoresistive Silicon Pressure Sensor
Introduction of flush silicon pressure sensor:
HT24 silicon pressure sensor is an embedded diaphragm sensor.
The pressure sensor uses food-grade oil filling technology. The
product adopts flat film structure, easy to clean, high
reliability, suitable for glue and other viscous fluid pressure and
level measurement. The sensor uses a high sensitivity silicon
pressure chip. The sensor is welded into the housing and does not
leak. Leaks are more reliable than O-ring seals. Flush diaphragm
pressure sensor with threaded construction for easy cleaning and
installation.
The pressure sensor uses disposable silicone oil filling
technology. The pressure felt by the diaphragm is transmitted to
the pressure chip through the silicone oil, and the compensation
circuit corrects the pressure signal to a linear electrical signal.
It can prevent scaling, unsanitary and sticky jam and other
problems. Widely used in food, pharmaceutical, wine and other
health industries and measuring media may be contaminated
occasions.
Product Features of flush silicon pressure sensor:
- Utilizing advanced technology and 316L stainless steel housing,
along with materials such as titanium and Hastelloy for the diaphragm
- Employing thick-film circuits for temperature compensation and
zero-point correction
- outstanding reliability, repeatability, and stability
- Flush diaphragm structure, which makes it easy to clean
Applications of flush silicon pressure sensor:- Suitable for measuring non-corrosive gas and liquid pressure with
316L stainless steel compatibility
- Food and beverage industry
- Industrial process control
- Pharmaceutical industry
Electrical performance of flush silicon pressure sensor:- Power Supply: ≤2mA DC (Typical 1.5mA DC)
- Input Impedance : 2.5KΩ~6KΩ
- Output Impedance: 2.5KΩ~6KΩ
- Electrical Connection: Gold-plated Kovar pins or 100mm
high-temperature wires.
Performance Parameters of flush silicon pressure sensor: |
Measurement Range | Gauge(G) | 10KPa,20KPa,35KPa,100KPa,200KPa,350KPa,1000KPa,2000Kpa |
Absolute(A) | 100KPaA,200KPaA,350KPaA,700KPaA,1000KPaA,2000KPaA |
Sealed(S) | 3500KPaS,7MPaS,10MPaS,20MPaS,35MPaS |
| Typ | Max | Unit |
NonLinearity | ±0.15 | ±0.3 | %F.S |
Repeatability | 0.05 | 0.1 | %F.S |
Hysteresis | 0.05 | 0.1 | %F.S |
Zero Offset Output | 0±1 | 0±2 | mV |
Full Scale Output | ≤20KPa | 50±10 | 50±30 | mV |
≥35kPa | 100±10 | 100±30 | mV |
Zero Offset Temp. Drift | ≤20KPa | ±1 | ±2 | %F.S |
≥35kPa | ±0.5 | ±1 | %F.S |
Full Scale Temp. Drift | ≤20KPa | ±1 | ±2 | %F.S |
≥35kPa | ±0.5 | ±1 | %F.S |
Compensated Temp. | ≤20KPa | 0~50 | ºC |
≥35kPa | 0~70 | ºC |
Operating Temperature | -20~80 | ºC |
Storage Temperature | -40~125 | ºC |
Allowable Overload | Take the smaller value between 3 times the full scale or 120MPa | |
Burst Pressure | 5X the full scale | |
Long-term Stability | 0.2 % | F.S/Year |
Diaphragm Material | 316L | |
Insulation Resistance | ≥200MΩ 100VDC | |
Vibration | No change under conditions of 10gRMS, 20Hz to 2000Hz | |
Shock | 100g,11ms | |
Response Time | ≤1ms | |
O-ring Seal | Nitrile rubber or Fluoro rubber | |
Filling Medium | Silicon Oil | |
Weight | ~55g | |
The parameters are tested under the following conditions:
1.5mA @25°C |
![](http://img.everychina.com/nimg/c7/9b/5512897543449ae5290fd48970e3.jpg)
![](http://img.everychina.com/nimg/5e/0f/09e45e3fc303244cdb4542421fa2.jpg)
Outline Construction |
Dimension | ![Ht24 Flush Diaphragm Pressure Sensor with a Highly Stable Diffused Silicon Chip](http://img.everychina.com/nimg/2f/60/154790ac1ea6347eeceb7295fb74.jpg)
|
Electrical connection and compensation |
![Ht24 Flush Diaphragm Pressure Sensor with a Highly Stable Diffused Silicon Chip](http://img.everychina.com/nimg/5a/a8/9ca875c4e454cc39b078e7896fca.jpg) |
![Ht24 Flush Diaphragm Pressure Sensor with a Highly Stable Diffused Silicon Chip](http://img.everychina.com/nimg/74/84/00b86b7e064f26bb524235078ffd.jpg)
- 1. Pay attention to the fit between the core size and the
transmitter housing during assembly to achieve the required airtightness
- 2. During the assembly of the housing, ensure it is aligned
vertically and apply even pressure to avoid jamming or damaging the
compensation plate.
- 3. If the measured medium is not compatible with the core diaphragm
and the housing material (316L), special instructions should be
provided when placing the order.
- 4. Avoid pressing the sensor diaphragm with hands or sharp objects
to prevent damage to the core due to diaphragm deformation or
piercing.
- 5. Keep the pressure port of the gauge pressure core open to the
atmosphere and prevent the entry of water, water vapor, or
corrosive media into
the core negative pressure chamber.
- 6. If there are any changes to the pin leads, follow the label on
the actual core for reference
1.Q: What are the features of your pressure sensor transmitters?
A: High precision, durability, and excellent
performance. Customization available. 2.Q: Can I customize special specifications?
A: Yes, our engineers can tailor products to meet
specific needs. We provide OEM and ODM service 3.Q: What is your production capacity?
A: Our manufacturing facilities can produce up to 30,000 pressure
sensor transmitters per month, so we are fully capable of meeting
the needs of large-scale orders. However, it is advisable to
contact our sales team in advance to ensure smooth production and
delivery scheduling
.4.Q: What's the typical delivery period?
A: 5~8 working day for standard models.
Customized products may vary. 5.Q: How are the products priced? Any discounts?
A: Competitive pricing with discounts for bulk orders
or long-term partners
.6.Q: What is the warranty of your products? And after-sales
service?
A: Our warranty time is 24 months after shipment, and
our after-sales will respond with your questions in 24hrs,
remote instruction by PC network
is always available.