Q62702-P1705中文资料

Typ Type

Tr?gerfrequ.Carrier Frequency kHz Bestellnr.Ordering Code

Typ Type

Tr?gerfrequ.Carrier Frequency kHz Bestellnr.Ordering Code

SFH 507-3030Q62702-P1701 SFH 507-3838Q62702-P1704SFH 507-3333Q62702-P1702SFH 507-4040Q62702-P1705SFH 507-36

36

Q62702-P1703

SFH 507-5656

Q62702-P1822

Wesentliche Merkmale

q Empf?ngermodul für übertragungsprotokolle mit kurzen Pulspaketen (N ≥ 6 Pulse pro Bit)q Fotodiode mit integriertem Verst?rker

q Geh?use schwarz eingef?rbt: Vergu? optimiert für eine Wellenl?nge von 950 nm q Hohe St?rsicherheit

q Geringe Stromaufnahme (0.5 mA typ.)q 5 V Betriebsspannung q Hohe Empfindlichkeit

q TTL und CMOS kompatibel

q M?gliche Datenübertragungsrate 2.4 kbit/s (N = 6,f 0= 56 kHz)Anwendungen

q Empf?nger für IR-Fernsteuerungen Features

q Receiver module for transmission codes with short bursts (N ≥ 6 pulses per bit)q Photodiode with hybride integrated circuit q Black epoxy resin: daylight filter optimized for 950 nm

q High immunity against ambient light q Low power consumption (0.5 mA typ.)q 5 V supply voltage

q High sensitivity (internal shield case)q TTL and CMOS compatibility

q 2.4 kbit/s data transmission possible (N = 6,f 0= 56 kHz)Applications

q IR-remote control preamplifier module IR-Empf?nger für Fernbedienungen (für kurze Burst)

IR-Receiver for Remote Control Systems (for Short Burst)

SFH 507

Ma?e in mm, wenn nicht anders angegeben/Dimensions in mm, unless otherwise specified.

f e x 06841

GEX06910

V OUT

GND

9.78.7

12.912.1

16.315.930.1

31.11.5

S

V Surface not flat

3.85

4.45

R 2.75

0.4

1.71.1

4.33.7

6.15.5

0.50

3x 2.54 = 7.62

0.650.50

2.540.8 max.

10.39.7

Blockschaltbild

Block Diagram

Grenzwerte(T A = 25°C) Maximum Ratings

Bezeichnung Description Symbol

Symbol

Wert

Value

Einheit

Unit

Betriebs- und Lagertemperatur Operation and storage temperature range T

A

,T stg– 25...+ 85°C

Sperrschichttemperatur Junction temperature range T

j

100°C

L?ttemperatur

L?tstelle 1 mm vom Geh?use; L?tzeit t≤10 s Soldering temperature

soldering joint ≥1 mm distance from package, soldering time t≤10 s T

S

260°C

Betriebsspannung Pin 2 Supply voltage V

S

– 0.3...+ 6.0V

Betriebsstrom Pin 2 Supply current I

CC

5mA

Ausgangsspannung Pin 3 Output voltage V

OUT

– 0.3...+ 6.0V

Ausgangsstrom Pin 3 Output current I

OUT

5mA

Verlustleistung

Total power dissipation T

A≤ 85°C

P

tot

50mW

OHF02198

Demodulator

Bandpass

AGC

Control

Input

2

3 1OUT GND V

S

PIN Circuit

100k?

1)In Verbindung mit einer typ. SFH 415 bei Betrieb mit I F = 0.5 A wird eine Reichweite von ca. 35 m erreicht.1)

Together with an IRED SFH 415 under operation conditions of I F = 0.5 A a distance of 35 m is possible.

Kennwerte (T A = 25°C)Characteristics Bezeichnung Description Symbol Symbol Wert Value Einheit Unit Betriebsspannung Supply voltage

V S

typ. 5.0(4.5 ... 5.5)

V

Bestrahlungsst?rke (Testsignal, s. Figure 2)Threshold irradiance (test signal, see Fig. 2)E e min(30-40 kHz)1)E e min(56 kHZ)1)E e max 1)

typ. 0.4 (< 0.6)typ. 0.45 (< 0.7)30mW/m 2mW/m 2W/m 2Wellenl?nge der max. Fotoempfindlichkeit Wavelength of max. sensitivity λs max 950nm Halbwinkel Half angle

?

±45

deg.

Stromaufnahme

Pin 2

Current consumption V s = 5 V,E v = 0

V s = 5 V,E v = 40 kIx, sunlight I CC

I CC

0.5 (< 0.8)1.0mA mA Ausgangsspannung Pin 3

Output voltage

I OUT = 0.5 mA,E e = 0.7 mW/m 2(Testsignal, s. Figure 2)(test signal, see Fig. 2)

V OUT low

≤ 250

mV

Figure 1Externe Beschaltung

External circuit

Figure 2Optisches Testsignal (IR-Diode SFH 415,I F = 0.5 A,N = 6 pulses,f =f 0,T = 10 ms)

Optical test signal

OHF02197

2

3

1

SFH >10k ?

330?

4.7μF μC

optional

*)

*)

+5V

GND

*)

only necessary to suppress power supply disturbances

506/507

t pi

OHF00220

E e

*)

t

T

t

O V V OL

OH

V *)

N po t 6 Pulses is recommended for optimal function

2)

1)

t d 2)

t pi -o f 3/

+pi t

f 10/_

<

0E

OHF00219

0.7

f 0.20.4

0.6

0.8

1.0

0.80.9 1.0 1.1

1.2 1.3e min /e

E /f 0

Vertical directivity ?y

Horizontal directivity ?x

Relative sensitivity E e min /E e =f (f / f 0)f =f 0± 5 %,?f (3 dB) =f 0/7

OHF00246

?

0.2

-10

0-20

-30

-40

-50-60-70-80-9020

30

40506070809010

00.6

0.40.60.8

1.01.2

1.41.6-0.2-0.4-0.6

0.20.4

OHF00247

?

0.2

-10

0-20-30

-40-50

-60-70-80-9020

30

40506070809010

00.6

0.40.60.8

1.01.2

1.41.6-0.2-0.4-0.6

0.20.4

Sensitivity vs. electric field disturbance E e min =f (E ), field strength of disturbance,f =f 0

Relative luminous sensitivity S rel =f (λ),

T A = 25o C

Output pulse T on ,T off =f(E e )

E OHF00217

0mW/m 2e min

E

0.40.8 1.2kV/m 2.0

0.2

0.4

0.6

0.8

1.00

f f (E) =(E) = 10 kHz

f 0.0

S rel

OHF02193

800λ

85090095010001050nm 1150

0.2

0.4

0.6

0.8

1.0

T on,ms

T e

mW/m 10

0.0OHF00245

E -1101010012

4

10on

off

T 2off

T = 950 nm λ0.2

0.4

0.6

0.8

1.0Sensitivity vs. bright ambient E e min =f (E )

Sensitivity vs. supply volt. disturbances ,E e min =f (?V S RMS

)

Sensitivity vs. dark ambient T p out =f (E e )

10E OHF00215

E

-10

101

10210mW/m -2

10

10-1

101102

102

W/m 2e min

Ambient,= 950 nm

λCorrelation with ambient light sources

(disturbance effect) : 10 W/m 2 1.4 klx ~8.2 klx

(stand. illum. A, T= 2855 K)(daylight, T = 5900 K)

_~_10E OHF00214

V -1mW/m -110

2mV e min

?

s RMS

2101

10010103

10

-2

10101f 0

f =10 kHz

1 kHz

100 Hz

0T OHF00216

p out

E -110

mW/m 2

50

100

150

200

300

s μInput burst duration

e

250

100101102

104

λ= 950 nm

Sensitivity vs. duty cycle E e =f (t p /T)

E mW/m 2

e min

t p /T

N = 6

= 16N 0.0

0.0OHL00218

0.5

0.1

1.5

2.0

2.5

3.00.20.40.60.8

N = 32