SS495AHoneywellHoneywell Hall-effect Linear Sensor ICs: SS490 Series, Standard miniature ratiometric linear Hall-effect sensor IC, 3.125mV/G at 5V, Flat TO-92 package, Straight leads 14,99mm [0.59in] long, Available in bulk pack of 1000 units per bag
¥
11.56
显示的图像仅供参考,应从产品数据表中获得准确的规格。
SS495AHoneywell
制造商:
Honeywell
制造商型号#:
SS495A
百芯编号#:
CM506640
价格(CNY):
¥
11.56
百芯库存:
9,306
个
库存地点:
可供应量:
7,312
个在库
此为供应商库存,需要与销售确认
产品类别:
霍尔,传感器
产品描述:
Honeywell Hall-effect Linear Sensor ICs: SS490 Series, Standard miniature ratiometric linear Hall-effect sensor IC, 3.125mV/G at 5V, Flat TO-92 package, Straight leads 14,99mm [0.59in] long, Available in bulk pack of 1000 units per bag
The SS495A is a high performance, miniature ratiometric linear (MRL) solid state hall effect sensor in 3 pin TO-92 package. This small and versatile sensor is operated by magnetic field from permanent magnet or an electromagnet. The ratiometric output voltage is set by supply voltage and varies in proportion to strength of magnetic field. The integrated circuitry provides increased temperature stability and sensitivity. Laser trimmed thin film resistors provide high accuracy (null to ±3%, sensitivity up to ±3%) and temperature compensation. The quad hall sensing element minimizes the effects of mechanical or thermal stress on output. The positive temperature coefficient of sensitivity (+0.02%/°C typical) helps compensate for negative temperature coefficients of low cost magnets providing robust design over wide temperature range.
Power consumption of 7mA at 5VDC for energy efficiency
Single current sinking or current sourcing output
Linear output for circuit design flexibility
Supply current of 8.7mA at 5VDC
Rail to rail operation provides more useable signal for higher accuracy
Operating temperature range from -40°C to 150°C
Supply voltage range from 4.5VDC to 10.5VDC
Sensitivity of 3.125mV/G
Linearity (% of span) of 1.0%
Response time of 3µs
Do not use this product as safety, emergency stop devices or in any other application where failure of product could result in personal injury.