TFBS5700-TR3 Vishay, TFBS5700-TR3 Datasheet - Page 8

TFBS5700-TR3

Manufacturer Part Number

TFBS5700-TR3

Description

TXRX IRDA 1.152MBIT SIDE 6-SMD

Manufacturer

Vishay

Type

TX/RXr

Datasheet

1.TFBS5700-TR3.pdf (14 pages)

Specifications of TFBS5700-TR3

Data Rate

1.125Mbps

Peak Wavelength

900nm

Pulse Width

2us

Package Type

SMD

Fall Time

40/60ns

Rise Time

40/60ns

Dimensions

6.8x2.8x1.6

Operating Supply Voltage (typ)

2.5/3.3V

Operating Supply Voltage (min)

2.4V

Operating Supply Voltage (max)

3.6V

Mounting

Surface Mount

Pin Count

Operating Temp Range

-25C to 85C

Operating Temperature Classification

Commercial

Idle Current, Typ @ 25° C

550µA

Link Range, Low Power

50cm

Operating Temperature

-25°C ~ 85°C

Orientation

Side View

Shutdown

Size

6.8mm x 2.8mm x 1.6mm

Standards

IrPHY 1.4

Supply Voltage

2.4 V ~ 3.6 V

Lead Free Status / Rohs Status

Compliant

Current page: 8 of 14
Download datasheet (211Kb)

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 TFBS5700 is in the default short

pulse duration mode. Some ENDECs are not able to

decode short pulses as valid SIR pulses. Therefore

an additional mode with an extended pulse duration

as in standard SIR transceivers was added in

TFBS5700. TFBS5700 is set to the “short output

pulse” as default after power on, also after recovering

from the shutdown mode (SD must have been longer

active than 1.5 ms). For mode changing see the fol-

lowing. To switch the transceivers from the short

pulse duration mode to the long pulse duration mode

and vice versa, the programming sequences

described below are required.

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 "LOW". Wait t

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

state of TXD, which determines speed setting).

4. TXD must be held for t

≥ 200 ns TXD.

TXD is now enable as normal TXD input for the longer

RXD - pulse duration mode.

Setting back to the default mode with

400 ns RXD-output pulse duration

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

imum allowed pulse length.

TXD is now enabled as normal TXD input.

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”

Document Number 84670

Rev. 2.1, 25-Sep-06

≥ 200 ns TXD is limited by the max-

≥ 200 ns. After waiting t

≥ 200 ns.

Simplified Method

Setting the device to the long pulse duration is nothing

else than a short active SD pulse of less than 600 µs.

In any case a short SD pulse will force the device to

leave the default mode and go the compatibility

mode. Backwards also an active SD can be used to

fall back into the default mode by applying that signal

for a minimum of 1.5 ms. That causes a power-on-

reset and sets the device to the default short pulse

mode. This simplified method takes more time but

may be easier to handle.

TXD

Figure 2. Mode Switching Timing Diagram

50 %

Vishay Semiconductors

50 %

TFBS5700

Hig h : F IR

Low : SIR

www.vishay.com

14873

225

TFBS5700-TR3 Vishay, TFBS5700-TR3 Datasheet - Page 8

TFBS5700-TR3

Specifications of TFBS5700-TR3

Related parts for TFBS5700-TR3