TFBS5700-TR3 Vishay, TFBS5700-TR3 Datasheet - Page 7

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

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TFBS5700

Vishay Semiconductors

Recommended Circuit Diagram

Operated at a clean low impedance power supply the

TFBS5700 needs only one additional external com-

ponent for setting the IRED drive current. However,

depending on the entire system design and board lay-

out, additional components may be required (see

figure 1).

The capacitor C1 is buffering the supply voltage and

eliminates the inductance of the power supply line.

This one should be a small ceramic version or other

fast capacitor to guarantee the fast rise time of the

IRED current. The resistor R1 is only necessary for

setting the IRED drive current.

Vishay transceivers integrate a sensitive receiver and

a built-in power driver. The combination of both needs

Table 2.

Recommended Application Circuit Components

www.vishay.com

224

Component

C1, C2

19297

GND

TXD

RXD

cc2

cc1

Figure 1. Recommended Application Circuit

2.9 V to 5.4 V supply voltage V

Vishay part# VJ 1206 Y 104 J XXMT

47 Ω, 0.125 W (V

resistor in series, e.g. 4.7 Ω

Recommended Value

0.1 µF, Ceramic

IRED Anode

Ground

TXD

RXD

CC1

≥ 2.5 V)

CC2

: add a

a careful circuit board layout. The use of thin, long,

resistive and inductive wiring should be avoided. The

inputs (TXD, SD) and the output RXD should be

directly (DC) coupled to the I/O circuit.

The capacitor C2 combined with the resistor R2 is the

low pass filter for smoothing the supply voltage.

R2, C1 and C2 are optional and dependent on the

quality of the supply voltages VCCx and injected

noise. An unstable power supply with dropping volt-

age during transmission may reduce the sensitivity

(and transmission range) of the transceiver.

The placement of these parts is critical. It is strongly

recommended to position C2 as close as possible to

the transceiver power supply pins.

In addition, when connecting the described circuit to

the power supply, low impedance wiring should be

used.

When extended wiring is used the inductance of the

power supply can cause dynamically a voltage drop

at V

follow the fast current is rise time. In that case another

10 µF (type, see table under C1) at V

ful.

Keep in mind that basic RF-design rules for circuit

design should be taken into account. Especially

longer signal lines should not be used without termi-

nation. See e.g. "The Art of Electronics" Paul Horow-

itz, Wienfield Hill, 1989, Cambridge University Press,

ISBN: 0521370957.

CC2

. Often some power supplies are not able to

Document Number 84670

Rev. 2.1, 25-Sep-06

CC2

will be help-

TFBS5700-TR3 Vishay, TFBS5700-TR3 Datasheet - Page 7

TFBS5700-TR3

Specifications of TFBS5700-TR3

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