ZXCT1009FTA DiodesZetex, Current Monitor 3-Pin SOT-23

  • RS Stock No. 154-920
  • Mfr. Part No. ZXCT1009FTA
  • Brand DiodesZetex
Technical Reference
Legislation and Compliance
RoHS Certificate of Compliance
Product Details

Current Sensing Amplifiers, DiodesZetex

Current Sensing Amplifiers have a voltage output that is proportional to the volt drop across a very low value resistor, usually in a high-current power rail. Hence they measure the current flowing in that power rail.

Specifications
Attribute Value
Typical Single Supply Voltage 2.5 → 20 V
Mounting Type Surface Mount
Package Type SOT-23
Pin Count 3
Dimensions 3.05 x 1.4 x 1mm
Height 1mm
Length 3.05mm
Width 1.4mm
Maximum Operating Temperature +85 °C
Minimum Operating Temperature -40 °C
1355 In stock for FREE next working day delivery
Price Each (In a Pack of 5)
£ 0.716
(exc. VAT)
£ 0.859
(inc. VAT)
Units
Per unit
Per Pack*
5 - 25
£0.716
£3.58
30 - 145
£0.618
£3.09
150 - 745
£0.52
£2.60
750 - 1495
£0.424
£2.12
1500 +
£0.326
£1.63
*price indicative
Packaging Options:
Related Products
Current Sensing Amplifiers have a voltage output that ...
Description:
Current Sensing Amplifiers have a voltage output that is proportional to the volt drop across a very low value resistor, usually in a high-current power rail. Hence they measure the current flowing in that power rail.
Current Sensing Amplifiers have a voltage output that ...
Description:
Current Sensing Amplifiers have a voltage output that is proportional to the volt drop across a very low value resistor, usually in a high-current power rail. Hence they measure the current flowing in that power rail.
Current Sensing Amplifiers have a voltage output that ...
Description:
Current Sensing Amplifiers have a voltage output that is proportional to the volt drop across a very low value resistor, usually in a high-current power rail. Hence they measure the current flowing in that power rail.
Current Sensing Amplifiers have a voltage output that ...
Description:
Current Sensing Amplifiers have a voltage output that is proportional to the volt drop across a very low value resistor, usually in a high-current power rail. Hence they measure the current flowing in that power rail.