NSP1833 Series
MEMS Ultra-Low Differential Pressure Sensor Die
Datasheet (EN) 1.0
Copyright © 2022, NOVOSENSE
Page 1
Product Overview
Novosense NSP1833 Series MEMS pressure sensos are
high-performance and high-reliability MEMS ultra-low
differential pressure sensor dies, based on the principle of
mono-crystalline silicon high sensitivity piezoresistive
effect, and manufactured by the advanced MEMS
technology. The NSP1833 series MEMS ultra-low
differential pressure sensors are guaranteed the accuracy
and stability better than 1% FS in overall lifetime, the
typical pressure range is 0~±1000Pa, widely used in
consumer electronics, medical electronics, industrial
controls etc.
The wafer manufactured platform of NSP1833 series
MEMS low differential pressure sensor is verified to fulfill
the International Automotive Standard IATF16949:2016.
Each wafer is inspected both in backside and frontside by
100% AOI and the electronic AOI wafer map is provided for
each wafer. For additional shipping options, please contact
Novosense sales.
Key Features
Pressure range: 0~±1000Pa
Operating temperature:-40~85℃
Die size:2.5x2.5x0.4mm
Accuracy and stability better than 1%FS
ROHS & REACH compliant
Applications
White household
Consumer
Medical
Industrial Controls
Device Information
Part Number
Span
Die Size
NSP1833-Axx01k
0~±1000Pa
2.5mmx2.5mmx0.4mm
NSP1831 Series
Datasheet (EN) 1.0
Copyright © 2022, NOVOSENSE
Page 2
INDEX
1. DIMENSIONS AND DIAGRAM .............................................................................................................................................. 3
2. ABSOLUTE MAXIMUM RATINGS ......................................................................................................................................... 4
3. CHARACTERISTIC ............................................................................................................................................................... 5
4. ORDER INFORMATION ....................................................................................................................................................... 6
5. REVISION HISTORY ............................................................................................................................................................ 7