Low

LT1019ACN85#PBF - 

Voltage Reference, Precision, Series, Shunt, LT1019 Series, 5V, DIP-8

LINEAR TECHNOLOGY LT1019ACN85#PBF

Image is for illustrative purposes only. Please refer to product description.

Manufacturer Part No:
LT1019ACN85#PBF
Order Code:
9559388
Product Range
LT1019 Series
Technical Datasheet:
(EN)
See all Technical Docs

Product Overview

The LT1019 series third generation band-gap Voltage Reference utilizing thin film technology and a greatly improved curvature correction technique. Wafer level trimming of both reference and output voltage combines to produce very low TC and tight initial output voltage tolerance. The LT1019 can both sink and source up to 10mA and can be used in either the series or shunt mode, allowing the reference to operate with positive or negative output voltages without external components. Minimum input/output voltage is less than 1V in the series mode, providing improved tolerance of low line conditions and excellent line regulation. It is a direct replacement for most band-gap references presently available including AD580, AD581, REF-01, REF-02, MC1400, MC1404 and LM168.
  • Series or shunt operation
  • Curvature corrected
  • Plug-in replacement for present references
  • 100% Noise tested
  • Temperature output
  • <0.05% Tight initial output voltage
  • 0.5ppm/V Ultrahigh line rejection
  • 0.02R Low output impedance

Applications

Signal Processing, Power Management

Product Information

:
Series, Shunt
:
LT1019 Series
:
5V
:
0.05%
:
± 3ppm/°C
:
DIP
:
8Pins
:
0°C
:
70°C
:
Each
:
-
:
-
Find similar products Choose and modify the attributes above to find similar products.

Associated Products

Compare Selected

No Longer Stocked

No longer stocked:: true No Longer Manufactured::

Customer Reviews

Community

Like to see information about this product from other customers?

 Read discussions, blogs, documents from our community members.

Filters:

Post a question to one of our experts or start a discussion and get responses from supplier experts and fellow engineers in our community.