Microchip Technology LM4040DYM3-2.5-TR, Shunt Precision Voltage Reference 2.5V, ±1% 3-Pin, SOT-23

  • RS Stock No. 177-2826
  • Mfr. Part No. LM4040DYM3-2.5-TR
  • Manufacturer Microchip
Technical data sheets
Legislation and Compliance
RoHS Certificate of Compliance
COO (Country of Origin): US
Specifications
Attribute Value
Nominal Voltage 2.5V
Package Type SOT-23
Reference Type Precision
Initial Accuracy ±1%
Mounting Type Surface Mount
Topology Shunt
Maximum Output Current 15mA
Maximum Input Voltage 15 V
Maximum Output Voltage 2.5 V
Pin Count 3
Dimensions 0.9 x 2.92 x 1.3mm
Height 0.9mm
Length 2.92mm
Maximum Operating Temperature +85 °C
Width 1.3mm
Minimum Operating Temperature -40 °C
Temporarily out of stock - back order for despatch 31/12/2019, delivery within 3 working days from despatch date
Price Each (On a Reel of 3000)
SGD 0.384
(exc. GST)
SGD 0.411
(inc. GST)
units
Per unit
Per Reel*
3000 +
SGD0.384
SGD1,152.00
*price indicative
Related Products
BD8158FVM are the 1 channel step-up switching regulator ...
Description:
BD8158FVM are the 1 channel step-up switching regulator which builds in the low voltage FET. Input voltage is 2.1V to 4.0V realizing the low consumption power. High accuracy feedback voltage ±1% is established and the brightness dispersion of TFT-LCD panel ...
The Microchip MCP1501 is a High-Precision Buffered Voltage ...
Description:
The Microchip MCP1501 is a High-Precision Buffered Voltage capable of sinking and sourcing 20mA of current. The device is a low-drift bandgap-based reference that utilises chopper-based amplifiers to reduce drift to zero and provide high current output. Maximum Temperature Coefficient: ...
The LM4040 is a precision two-terminal shunt mode, ...
Description:
The LM4040 is a precision two-terminal shunt mode, bandgap voltage reference available in fixed reverse breakdown voltages of 2.048V, 2.500V, 3.000V, 3.3V, 4.096V, and 5.000V. Ideal for space-critical applications, the LM4040 is offered in the subminiature 3-pin SC70 surface-mount package ...
A simple way to achieve a stable voltage ...
Description:
A simple way to achieve a stable voltage with adjustable precision devices. Adjustable precision devices make it easy to find the right part for your power management designs and other applications. They include different voltage tolerances, temperature ranges and dynamic ...