TFBS5711-TR1 Vishay, TFBS5711-TR1 Datasheet - Page 7

TFBS5711-TR1

Manufacturer Part Number

TFBS5711-TR1

Description

Manufacturer

Vishay

Type

TX/RXr

Datasheet

1.TFBS5711-TR1.pdf (14 pages)

Specifications of TFBS5711-TR1

Peak Wavelength

900nm

Angle Of Half Sensitivity

48°

Pulse Width

2us

Led Supply Voltage

-0.5 to 6.5V

Package Type

SMD

Fall Time

40/60ns

Rise Time

40/60ns

Dimensions

6x3.1x1.9

Operating Supply Voltage (typ)

3.3/5V

Operating Supply Voltage (min)

2.7V

Operating Supply Voltage (max)

5.5V

Mounting

Surface Mount

Pin Count

Operating Temp Range

-25C to 85C

Operating Temperature Classification

Commercial

Data Rate

1.125Mbps

Lead Free Status / RoHS Status

Compliant

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TFBS5711

Vishay Semiconductors

I/O and Software

In the description, already different I/Os are men-

tioned. Different combinations are tested and the

function verified with the special drivers available

from the I/O suppliers. In special cases refer to the I/

O manual, the Vishay application notes, or contact

directly Vishay Sales, Marketing or Application.

Programming

Pulse duration Switching

After Power-on the TFBS5711 is in the default short

RXD pulse duration mode.

Some ENDECs are not able to decode short pulses

as valid SIR pulses. Therefore an additional mode

with extended pulse duration (same as in standard

SIR transceivers) is added in TFBS5711. TFBS5711

is set to the "short output pulse" as default after power

on, and after recovering from the shutdown mode (SD

being active longer than 1.5 ms).

To switch the transceivers from the short RXD pulse

duration mode to the long pulse duration mode and

vice versa, follow the procedure described below.

Setting to the ENDEC compatibility mode

with an RXD pulse duration of 2 μs

1. Set SD input to logic "HIGH".

2. Set TXD input to logic "HIGH". Wait t

3. Set SD to logic "LOW" (this negative edge latches

state of TXD, which determines speed setting).

4. After waiting t

After that TXD is enabled as normal TXD input and

the RXD output is set for the longer RXD - pulse dura-

tion mode.

Setting back to the default mode with a

400 ns pulse duration

1. Set SD input to logic "HIGH".

2. Set TXD input to logic "LOW". Wait t

3. Set SD to logic "LOW" (this negative edge latches

state of TXD, which determines speed setting).

www.vishay.com

236

≥ 200 ns.

4. After waiting t

"LOW". The hold time of TXD is limited by the maxi-

mum allowed pulse length.

After that TXD is now enabled as normal TXD input

and the RXD output is set for the short RXD - pulse

duration mode.

The timing of the pulse duration changing procedure

is quite uncritical. However, the whole change must

not take more than 600 μs. See in the spec. "Shut-

down Active Time Window for Programming"

Simplified Method

Setting the device to the long pulse duration is simply

applying a short active (less than 600 μs) pulse to SD

(TXD = Low). In any case a short SD pulse will force

the device to leave the default mode and go the com-

patibility mode. Vice versa applying a 1.5 ms (mini-

mum) pulse at SD will cause the device to go back to

the default mode by activating a power-on-reset and

setting the device to the default short pulse mode.

This simplified method takes more time but may be

easier to handle.

Figure 2. Timing Diagram for changing the output pulse duration

18150

TXD 50 %

≥ 200 ns TXD can be set to logic

t s

50 %

t h

Document Number 82634

High:

Rev. 1.5, 03-Jul-06

Low:

400 ns

2 µs

TFBS5711-TR1 Vishay, TFBS5711-TR1 Datasheet - Page 7

TFBS5711-TR1

Specifications of TFBS5711-TR1

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