Texas Instruments LM285M-2.5/NOPB, Fixed Shunt Voltage Reference 2.5V, ±1.5 % 8-Pin, SOIC

Technical data sheets
Legislation and Compliance
RoHS Certificate of Compliance
Product Details

Shunt Voltage Reference, Fixed, 2.4V to 2.5V

Voltage References, Texas Instruments

Precison Fixed and Adjustable Voltage Reference ICs utilsing series, shunt or series/shunt topologies and available in both through-hole and surface mount packages. Voltage References are available with initial accuracies of ±0.02 to ±2%.

Specifications
Attribute Value
Nominal Voltage 2.5V
Package Type SOIC
Reference Type Fixed
Initial Accuracy ±1.5 %
Mounting Type Surface Mount
Topology Shunt
Maximum Output Current 20mA
Pin Count 8
Load Regulation 10 mV
Dimensions 4.9 x 3.9 x 1.45mm
Width 3.9mm
Length 4.9mm
Maximum Operating Temperature +85 °C
Height 1.45mm
Minimum Operating Temperature -40 °C
50 In stock for delivery within 3 working days
Price Each (In a Pack of 10)
SGD 1.046
(exc. GST)
SGD 1.119
(inc. GST)
units
Per unit
Per Pack*
10 - 10
SGD1.046
SGD10.46
20 - 40
SGD1.044
SGD10.44
50 - 90
SGD0.804
SGD8.04
100 - 190
SGD0.802
SGD8.02
200 +
SGD0.71
SGD7.10
*price indicative
Due to temporarily constrained supply, RS is unable to accept backorders at this time
Packaging Options:
Related Products
TS431 with Reference Voltage 2.495 VTS432 with Reference ...
Description:
TS431 with Reference Voltage 2.495 VTS432 with Reference Voltage 1.24 V.
For low power, low current applications, the shunt ...
Description:
For low power, low current applications, the shunt regulators from Fairchild Semiconductor feature adjustable/programmable output voltages with superb thermal stability. The shunt regulators provide low dynamic output impedance and fast turn-on response while operating over the industrial temperature range.
Precison Fixed and Adjustable Voltage Reference ICs utilsing ...
Description:
Precison Fixed and Adjustable Voltage Reference ICs utilsing series, shunt or series/shunt topologies and available in both through-hole and surface mount packages. Voltage References are available with initial accuracies of ±0.02 to ±2%.