SFH5400 [OSRAM]

Logic Gate Detector; 逻辑门探测器


型号：	SFH5400
厂家：	OSRAM GMBH
描述：	Logic Gate Detector 逻辑门探测器栅
文件：	总7页 (文件大小：147K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Logic Gate Detector

Lead (Pb) Free Product - RoHS Compliant

SFH 5400

Wesentliche Merkmale

Features

•

Geeignet für Anwendungen im Bereich von

500 nm bis 900 nm

•

Suitable for applications from 500 nm to

900 nm

•

Fotodiode mit integriertem Schmitt-Trigger

SMT-Bauform

TTL- und CMOS-kompatibel

Ausgang: push-pull

•

Photodiode with built-in Schmitt trigger

SMT package

TTL and CMOS compatible

Output: push-pull

Anwendungen

Applications

•

Optischer Schalter

Lichtschranken

Pulsformer

•

Optoelectronic switch

Interrupter

Pulse former

Zähler

Photoelectric counter

Typ

Type

Bestellnummer

Ordering Code

SFH 5400

Q65110A2704

2004-06-09

SFH 5400

Grenzwerte

Maximum Ratings

Bezeichnung

Parameter

Symbol

Wert

Value

Einheit

Unit

Betriebs- und Lagertemperatur

Operating and storage temperature range

T_op; T_stg

V_CC

V_O

– 40 … + 85

– 0.5 … 15

– 25 … 40

100

°C

Versorgungsspannung

Supply voltage

Ausgangsspannung

Output voltage

Ausgangsstrom

Output current

I_q

Ausgangsleistung T_A= 25 °C

P_q

Total output power

Kennwerte

Characteristics

T_A= – 40 … 85 °C, V_CC= 4.5 … 15 V, E_e= 3.2 … 10 mW/cm²

T_A= 25 °C, V_CC= 5 V, E_e= 6.5 mW/cm²for typical values

Bezeichnung

Parameter

Symbol

Wert

Value

Einheit

Unit

typ.

Limit

Schwelle Bestrahlungsstärke

Threshold radiant intensity

(Ausgang L → H)

E_eSchw

1.3

–

mW/cm²

(Output L → H)

λ = 660 nm

Min. Bestrahlungsstärke, Ausgang H

Min. radiant intensity, Output H

λ = 660 nm

E_eHmin

–

< 3.2

mW/cm²

mWcm²

Max. Bestrahlungsstärke, Ausgang L

Max. radiant intensity, Output L

λ = 660 nm

E_eLmax

> 0.16

Hysterese

Hysteresis

∆E_e

> 0.2

0.15

–

mW/cm²

Ausgangsspannung L

Output voltage L

V_OL

< 0.5

_OL= 6.4 mA

2004-06-09

SFH 5400

Kennwerte

Characteristics (cont’d)

T_A= – 40 … 85 °C, V_CC= 4.5 … 15 V, E_e= 3.2 … 10 mW/cm²

T_A= 25 °C, V_CC= 5 V, E_e= 6.5 mW/cm²for typical values

Bezeichnung

Parameter

Symbol

Wert

Value

Einheit

Unit

typ.

Limit

Ausgangsspannung H

Output voltage H

V_OH

V_CC– 1.8

> 2.4

_OH= – 2.6 mA

Ausgangsleckstrom (V_O> V_CC= 4.5 V)

Output leakage current (V_O> V_CC= 4.5 V)

V_O= 5.5 V

I_OHH

µA

0.2

0.25

< 100

< 500

V_O= 15 V

Kurzschlußstrom L

Short-circuit current L

t_p< 10 ms, E_e= 0;

I_OSL

I_OSH

I_CCL

_CC= V_O= 5.5 V

_CC= V_O= 15 V

> 25

> 40

Kurzschlußstrom H

Short-circuit current H

t_p< 10 ms, V₀= GND;

_CC= 5.5 V

_CC= 15 V

– 22

– 45

< – 10

< – 25

Versorgungsstrom L

Supply current L

E_e= 0;

_CC= 5.5 V

_CC= 15 V

3.5

< 6

< 7.5

Versorgungsstrom

Supply current L

I_CCH

t_PHL

t_PLH

_CC= 5.5 V

_CC= 15 V

3.4

3.8

< 5

< 6

Ausgangsverzögerungszeit¹⁾

Ausgang H → L

200

–

Output delay time¹⁾

Output H → L

Ausgangsverzögerungszeit¹⁾

Ausgang L → H

200

–

Output delay time¹⁾

Output L → H

2004-06-09

SFH 5400

Kennwerte

Characteristics (cont’d)

T_A= – 40 … 85 °C, V_CC= 4.5 … 15 V, E_e= 3.2 … 10 mW/cm²

T_A= 25 °C, V_CC= 5 V, E_e= 6.5 mW/cm²for typical values

Bezeichnung

Parameter

Symbol

Wert

Value

Einheit

Unit

typ.

Limit

Anstiegszeit Ausgang (10% → 90%)

Rise time output (10% → 90%)

t_r

t_f

–

Abfallzeit Ausgang (90% → 10%)

Fall time output (90% → 10%)

–

Gemessen von 50% Punkt der ansteigenden Flanke Eingangspuls bis zu 1,3 V Punkt der ansteigenden Flanke

Ausgangspuls (t_PLH), bzw. von 50% Punkt der abfallenden Flanke Eingangspuls bis zu 1,3 V Punkt der abfallenden

Flanke Ausgangspuls (t_PHL).

Measured from 50% of the rising edge of the input pulse to 1.3 V of the rising edge of the output pulse (t_PLH) or from

50% of the descending edge input pulse to 1.3 V of the descending output pulse edge (t_PHL), respectively.

Funktionsbereich

Functional Characteristics

Bezeichnung

Parameter

Symbol

Wert

Value

Einheit

Unit

Betriebs- und Lagertemperatur

Operating and storage temperature range

T_op; T_stg

– 40 … + 85

4.5 … 15

°C

Versorgungsspannung

Supply voltage

V_CC

Shield

Schmitt

Trigger

Amplifier

OUT

GND

OHF00358

Figure 1

Block Diagram

2004-06-09

SFH 5400

Output Voltage

Rel. Threshold

E_e/E_e(V_CC= 5 V)

Switching Threshold

_O= f (V_CC, I_C)

OHF00352

OHF00353

OHF00351

1.02

1.8

mW/cm²

1.6

E_e

E_e(V_CC= 5 V)

V_O

1.01

1.4

1.00

0.99

0.98

0.97

1.2

_ch= 0 mA

1.0

0.8

0.6

0.4

I_ch= 2.6 mA

0.2

0.96

400

500

600

700

900

V_CC

Output Characteristics

_oh= f (I_oh), V_CC= 5 V

OHF00354

3.60

V_oh

3.55

3.50

3.45

3.40

3.35

3.30

3.25

3.20

0.01

0.10

mA 10

I_oh

2004-06-09

SFH 5400

Maßzeichnung

Package Outlines

Chip position

1.1

0.9

6.7

6.2

V_CC

GND

4.5

4.3

Photosensitive area

0.5 x 0.5

OUT

GEO06966

Maße in mm, wenn nicht anders angegeben / Dimensions in mm, unless otherwise specified.

Empfohlenes Lötpaddesign

Recommended Solderpad Design

Padgeometrie für

verbesserte Wärmeableitung

Paddesign for improved

heat dissipation

1.8

Bauteil positioniert

Component location on pad

OHF02528

2004-06-09

SFH 5400

Lötbedingungen

Vorbehandlung nach JEDEC Level 2

Soldering Conditions

IR-Reflow Lötprofil für bleifreies Löten

Preconditioning acc. to JEDEC Level 2

(nach J-STD-020B)

IR Reflow Soldering Profile for lead free soldering (acc. to J-STD-020B)

OHLA0687

+0 ˚C

300

Maximum Solder Profile

˚C

Recommended Solder Profile

260 ˚C

Minimum Solder Profile

-5 ˚C

5 ˚C

255 ˚C

240 ˚C

250

245 ˚C

235 ˚C

+5 ˚C

-0 ˚C

217 ˚C

10 s min

200

150

100

30 s max

Ramp Down

6 K/s (max)

100 s max

120 s max

min. condition for IR Reflow Soldering:

solder point temperature ≥ 235 °C for at least 10 sec.

Ramp Up

3 K/s (max)

25 ˚C

100

150

200

250

300

Published by

OSRAM Opto Semiconductors GmbH

Wernerwerkstrasse 2, D-93049 Regensburg

www.osram-os.com

The information describes the type of component and shall not be considered as assured characteristics.

Terms of delivery and rights to change design reserved. Due to technical requirements components may contain

dangerous substances. For information on the types in question please contact our Sales Organization.

Packing

Please use the recycling operators known to you. We can also help you – get in touch with your nearest sales office.

By agreement we will take packing material back, if it is sorted. You must bear the costs of transport. For packing

material that is returned to us unsorted or which we are not obliged to accept, we shall have to invoice you for any costs

incurred.

Components used in life-support devices or systems must be expressly authorized for such purpose! Critical

components ¹, may only be used in life-support devices or systems ²with the express written approval of OSRAM OS.

¹A critical component is a component usedin a life-support device or system whose failure can reasonably be expected

to cause the failure of that life-support device or system, or to affect its safety or effectiveness of that device or system.

²Life support devices or systems are intended (a) to be implanted in the human body, or (b) to support and/or maintain

and sustain human life. If they fail, it is reasonable to assume that the health of the user may be endangered.

2004-06-09

SFH5400 [OSRAM]

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