Low

TFBS4650-TR1 - 

IR Transceiver, 115.2 Kbps, 2.4 V, 3.6 V, 2 mA, 50 cm, 886 nm

TFBS4650-TR1 - IR Transceiver, 115.2 Kbps, 2.4 V, 3.6 V, 2 mA, 50 cm, 886 nm

The actual product may differ from image shown

Manufacturer:
VISHAY VISHAY
Manufacturer Part No:
TFBS4650-TR1
Newark Part No.:
34M8813
Technical Datasheet:
(EN)
See all Technical Docs

Product Overview

The TFBS4650-TR1 is an Infrared Transceiver supports data rates up to 115kbps. The transceiver consists of a PIN photodiode, infrared emitter and control IC in a single package. Link distance 30/20cm full 15° cone with standard or low power IrDA, respectively. Emission intensity can be set by an external resistor to increase the range for extended low power spec to >50cm.
  • 50cm Typical transmission distance to standard device
  • 75µA idle at 3.6V Low current consumption

Applications

Consumer Electronics

Product Information

:
115.2Kbps
:
2.4V
:
3.6V
:
2mA
:
50cm
:
886nm
:
-25°C
:
85°C
:
Cut Tape
:
-
Find similar products Choose and modify the attributes above to find similar products.

Substitutes

Related Searches

US continental orders over $49 and under 50 pounds may qualify for free ground shipping. Click the link for the full Terms and Conditions of the offer.

2,412 In stock

UK Stock

5-7 days shipping for in stock items

 
Check stock and lead times
More stock available week commencing 12/25/17
$3.37 $ 3.37
Price for:
Each (Supplied on Cut Tape)
Multiple: 1 Minimum: 1
Quantity Price
1 + $3.37
10 + $2.79
25 + $2.63
50 + $2.46
100 + $2.30
250 + $2.23
500 + $2.00
No longer stocked:: No Longer Manufactured::
Add to Cart
Total Price:
Total Price: ( )
Total Price: --

Customer Reviews

Customer Q&A Exchange

Community

Like to see information about this product from other customers?

 Read discussions, blogs, documents from our community members.

Filters:

Select document type(s) you want to see and click “Apply Filters” button
Post a question to one of our experts or start a discussion and get responses from supplier experts and fellow engineers in our community.