TFDU6101E-TT4 Vishay, TFDU6101E-TT4 Datasheet - Page 8

TFDU6101E-TT4

Manufacturer Part Number

TFDU6101E-TT4

Description

Manufacturer

Vishay

Type

TX/RXr

Datasheet

1.TFDU6101E-TT4.pdf (18 pages)

Specifications of TFDU6101E-TT4

Data Rate

0.004kbps

Peak Wavelength

900nm

Angle Of Half Sensitivity

48°

Pulse Width

10us

Led Supply Voltage

-0.5 to 6V

Package Type

Ultra Small Profile

Fall Time

40ns

Rise Time

40ns

Dimensions

9.7x4.7x4

Operating Supply Voltage (typ)

3.3/5V

Operating Supply Voltage (min)

2.6V

Operating Supply Voltage (max)

5.5V

Mounting

Surface Mount

Pin Count

Operating Temp Range

-25C to 85C

Operating Temperature Classification

Commercial

Lead Free Status / Rohs Status

Compliant

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Recommended Circuit Diagram

The only required component for designing an

IrDA 1.3

transceivers is a current limiting resistor, R1, to the

IRED. However, depending on the entire system

design and board layout, additional components may

be required (see figure KEIN MERKER).

Table 1. Recommended Application Circuit Components

TFDU6101E/TFDS6401/TFDS6501E/TFDT6501E

Vishay Semiconductors

8 (17)

www.vishay.com

SD/Mode

Component

GND

Rxd

Txd

CC2

CC1

Figure 3. Recommended Application Circuit

Note: outlined components are optional depending

solution

4.7 F, Tantalum

0.1 F, Ceramic

5 V supply voltage: 7.2

(recommend using

two 3.6 , 0.125 W resistors in series)

3.3 V supply voltage: 3.6

(recommend using

two 1.8 , 0.125 W resistors in series)

on the quality of the power supply

, 0.125 W

using

IRED

Cathode

Rxd

Vcc

GND

Recommended Value

TFDx6x0xE

Vishay

SD/Mode

, 0.25 W

Anode

, 0.25 W

Telefunken

IRED

Mode

Txd

Vishay Telefunken 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/ Mode) and the output

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

R1 is used for controlling the current through the

IR emitter. For increasing the output power of the

IRED, the value of the resistor should be reduced.

Similarly, to reduce the output power of the IRED, the

value of the resistor should be increased. For typical

values of R1 see figure 4. For IrDA compliant

operation, a current control resistor of 7.2

recommended. For compensating losses of the cos-

metic window, reducing that value to 5.6

acceptable. The upper drive current limitation is

dependent on the duty cycle and is given by the

absolute maximum ratings on the data sheet.

R2, C1 and C2 are optional and dependent on the

quality of the supply voltage V

An unstable power supply with dropping voltage during

transmission may reduce sensitivity (and transmission

range) of the transceiver.

The placement of these parts is critical. It is strongly

recommended to position C2 as near as possible to the

transceiver power supply pins. An electrolytic

capacitor should be used for C1 while a ceramic

capacitor is used for C2.

293D 475X9 016B 2T

VJ 1206 Y 104 J XXMT

CRCW–1206–3R60–F–RT1

CRCW–1206–1R80–F–RT1

CRCW–1206–47R0–F–RT1

Vishay Part Number

Document Number 82525

and injected noise.

Rev. B1.6, 02–Nov–00

TFDU6101E-TT4 Vishay, TFDU6101E-TT4 Datasheet - Page 8

TFDU6101E-TT4

Specifications of TFDU6101E-TT4

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