TFDU4300-TT3 Vishay, TFDU4300-TT3 Datasheet - Page 5

TFDU4300-TT3

Manufacturer Part Number

TFDU4300-TT3

Description

Infrared Transceivers SIR 115.2 kbits/s 2.4-5.5V Op Voltage

Manufacturer

Vishay

Type

TX/RXr

Series

-r

Datasheet

1.TFDU4300-TT3.pdf (13 pages)

Specifications of TFDU4300-TT3

Wavelength

900 nm

Continual Data Transmission

115.2 Kbit/s

Transmission Distance

0.7 m

Radiant Intensity

65 mW/sr

Half Intensity Angle Degrees

48 deg

Pulse Width

2 us

Maximum Rise Time

100 ns

Maximum Fall Time

100 ns

Operating Voltage

2.4 V to 5.5 V

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 30 C

Dimensions

8.5 mm x 2.9 mm x 2.5 mm

Data Rate

115.2Kbps

Peak Wavelength

900nm

Angle Of Half Sensitivity

48°

Package Type

SMD

Fall Time

100ns

Rise Time

100ns

Operating Supply Voltage (typ)

2.5/3.3/5V

Operating Supply Voltage (min)

2.4V

Operating Supply Voltage (max)

5.5V

Mounting

Surface Mount

Pin Count

Operating Temp Range

-30C to 85C

Operating Temperature Classification

Commercial

Idle Current, Typ @ 25° C

75µA

Link Range, Low Power

70cm

Operating Temperature

-30°C ~ 85°C

Orientation

Top View

Shutdown

Yes

Size

8.5mm x 2.9mm x 2.5mm

Standards

IrPHY 1.0

Supply Voltage

2.4 V ~ 5.5 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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TFDU4300

Vishay Semiconductors

Optoelectronic Characteristics

Receiver

Tested at T

Typical values are for DESIGN AID ONLY, not guaranteed nor subject to production testing.

Notes:

(1)

(2)

(3)

Transmitter

Tested at T

Typical values are for DESIGN AID ONLY, not guaranteed nor subject to production testing.

Notes:

(1)

(2)

www.vishay.com

208

Minimum irradiance E

angular range

Maximum Irradiance E

Angular Range

Maximum no detection

irradiance

Rise time of output signal

Fall time of output signal

RXD pulse width of output signal

Stochastic jitter, leading edge

Standby/shutdown delay,

receiver startup time

Latency

IRED operating current limitation No external resistor for current limitation

Forward voltage of built-in IRED

Output leakage IRED current

Output radiant intensity

Output radiant intensity, angle of

half intensity

Peak - emission wavelength

Spectral bandwidth

Optical rise time, fall time

Optical output pulse duration

Optical overshoot

IrDA sensitivity definition: minimum irradiance E

Equivalent to IrDA background light and electromagnetic field test: fluorescent lighting immunity.

Due to this wavelength restriction compared to the IrDA spec of 850 nm to 900 nm the transmitter is able to operate as source for the

Maximum irradiance E

Using an external current limiting resistor is allowed and recommended to reduce IRED intensity and operating current when current

while the source is operating at the minimum intensity in angular range into the minimum half-angular range at the maximum link length.

maximum intensity in angular range at minimum link length must not cause receiver overdrive distortion and possible related link errors.

If placed at the active output interface reference plane of the transmitter, the receiver must meet its bit error ratio (BER). For more

definitions see the document “Symbols and Terminology” on the Vishay website.

reduction is intended to operate at the IrDA low power conditions. E.g. for V

a power minimized operation at IrDA low power conditions.

standard remote control applications with codes as e.g. Phillips RC5/RC6

(1)

Parameter

amb

(2)

(3)

= 25 °C, V

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

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

in angular range, power per unit area. The optical delivered to the detector by a source operating at the

(2)

CC1

= V

λ = 850 nm to 900 nm; α = 0°, 15°

= V

input pulse width 1.6 < t

input irradiance = 100 mW/m

(Receiver is inactive as long as

input pulse width t

input pulse length > 1.2 µs

TXD = 0 V, 0 < V

10 % to 90 %, C

90 % to 10 %, C

CC2

no output signal allowed

9.6 kbit/s to 115.2 kbit/s

after shutdown active or

λ = 850 nm to 900 nm

TXD = low or SD = high

= 1.6 µs at f = 115 kHz,

TXD = high, SD = low

CC1

= 2.7 V to 5.5 V unless otherwise noted.

Test conditions

= 2.7 V to 5.5 V unless otherwise noted.

≤ 115.2 kbit/s

Test conditions

= 5.0 V, α = 0°, 15°

, t

power-on

α = 0°, 15°

SD = high)

= 300 mA

< 40 ns,

in angular range, power per unit area. The receiver must meet the BER specification

CC1

TXD

= 15 pF

TXD

< 5.5 V

≥ 20 µs

< 20 µs

(1)

CC2

Symbol

or RECS 80.

r(RXD)

f(RXD)

Symbol

ropt

IRED

= 3.3 V a current limiting resistor of R

Δλ

opt

, t

fopt

TXD

(0.4)

Min.

1.65

Min.

250

880

1.4

- 1

- 0.15

(500)

Typ.

100

2.0

(4)

± 24

Typ.

300

1.8

Document Number 82614

Max.

Rev. 1.8, 19-Feb-09

100

250

150

3.0

TXD

(8)

Max.

0.04

350

900

100

300

1.9

= 56 Ω will allow

+ 0.15

(mW/cm

(µW/cm

mW/m

kW/m

Unit

µs

mW/

Unit

µA

µs

)

TFDU4300-TT3 Vishay, TFDU4300-TT3 Datasheet - Page 5

TFDU4300-TT3

Specifications of TFDU4300-TT3

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