TFBS4650-TR4 VISHAY [Vishay Siliconix], TFBS4650-TR4 Datasheet - Page 7

TFBS4650-TR4

Manufacturer Part Number

TFBS4650-TR4

Description

Infrared Transceiver 9.6 kbit/s to 115.2 kbit/s (SIR)

Manufacturer

VISHAY [Vishay Siliconix]

Datasheet

1.TFBS4650-TR4.pdf (14 pages)

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TFBS4650

Vishay Semiconductors

Recommended Circuit Diagram

Operated at a clean low impedance power supply the

TFBS4650 needs only one additional external

component when the IRED drive current should be

minimized

according the low power IrDA standard. When

combined operation in IrDA and Remote Control is

intended no current limiting resistor is recommended.

However, depending on the entire system design and

board layout, additional components may be required

(see figure 1). When long wires are used for bench

tests, the capacitors are mandatory for testing rise/fall

time correctly.

The capacitor C1 is buffering the supply voltage V

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 necessary for

controlling the IRED drive current when the internally

controlled current is too high for the application.

Vishay transceivers integrate a sensitive receiver and

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

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.

As already stated above R2, C1 and C2 are optional

and depend on the quality of the supply voltages V

and injected noise. An unstable power supply with

dropping voltage during transmission may reduce the

sensitivity

transceiver.

The placement of these parts is critical. It is strongly

www.vishay.com

GND

TXD

RXD

CC2

CC1

Figure 1. Recommended Application Circuit

(and

for

irdasupportAM@vishay.com, irdasupportAP@vishay.com, irdasupportEU@vishay.com

minimum

transmission

For technical questions within your region, please contact one of the following:

current

IRED Anode

IRED Cathode

Ground

TXD

RXD

range)

consumption

19286

CCx

the

cc2

recommended to position C2 as close as possible to

the transceiver power supply pins.

When connecting the described circuit to the power

supply, low impedance wiring should be used.

In case of extended wiring 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 cap at V

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

termination. See e.g. "The Art of Electronics" Paul

Horowitz, Wienfield Hill, 1989, Cambridge University

Press, ISBN: 0521370957.

Table 2.

Recommended Application Circuit Components

Table 3.

Recommended resistor R1 (Ω)

Component

CC2

C1, C2

. Often some power supplies are not able to

(V)

2.7

3.0

3.3

CC2

will be helpful.

0.1 µF, Ceramic Vishay part#

47 Ω, 0.125 W (V

Minimized current consumption,

VJ 1206 Y 104 J XXMT

Recommended value

IrDA low power compliant

See table 3

Document Number 84672

Rev. 1.2, 28-May-08

CC1

= 3 V)

TFBS4650-TR4 VISHAY [Vishay Siliconix], TFBS4650-TR4 Datasheet - Page 7

TFBS4650-TR4

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