! 2007-05-23
BIOFY® Sensor
Version 1.1
SFH 7072
Features:
• Multi chip package featuring two green emitters, one red emitter, one infrared emitter and two
detectors
• Package size: (WxDxH) 7.5 mm x 3.9 mm x 0.9 mm
• Light Barriers to block optical crosstalk
• optimized for strong PPG signal
Applications
• Heart rate monitoring
• Pulse oximetry
for:
• Wearable devices (e.g. smart watches, fitness trackers, ...)
• Mobile devices
7
Ordering Information
Type
SFH7072
2019-04-24
Ordering Code
Q65112A1516
1
Version 1.1
SFH 7072
Pin configuration
Pin Name
Function
1
BPC
Broadband photodiode cathode
2
BPA
Broadband photodiode anode
3
IPC
IR-Cut photodiode cathode
4
IA
Infrared LED anode
5
G1A
Green LED 1 anode
6
G1C
Green LED 1 cathode
7
RA
Red LED anode
8
RC
Red LED cathode
9
IC
Infrared LED cathode
10
IPA
IR-Cut photodiode anode
11
G2A
Green LED 2 anode
12
G2C
Green LED 2 cathode
Block diagram
2019-04-24
2
Version 1.1
Maximum Ratings (TA = 25 °C)
Parameter
SFH 7072
Symbol
Values
Unit
General
Operating temperature range
Top
-40 … 85
°C
Storage temperature range
Tstg
-40 … 85
°C
ESD withstand voltage
(acc. to ANSI/ ESDA/ JEDEC JS-001 - HBM)
VESD
2
kV
Reverse Voltage
VR
5
V
Forward current
IF (DC)
60
mA
Surge current
(tp = 100 µs, D = 0)
IFSM
1
A
Reverse voltage
VR
12
V
Forward current
IF (DC)
40
mA
Surge current
(tp = 100 µs, D = 0)
IFSM
600
mA
Reverse voltage
VR
5
V
Forward current
IF (DC)
25
mA
Surge current
(tp = 10 µs, D = 0)
IFSM
300
mA
VR
16
V
Infrared Emitter
Red Emitter
Green Emitters
Detectors
Reverse voltage
2019-04-24
3
Version 1.1
SFH 7072
Characteristics (TA = 25 °C)
Parameter
Symbol
Value
Unit
Infrared Emitter
Wavelength of peak emission
(IF = 20 mA, tp = 20 ms)
(typ.)
λpeak
Centroid Wavelength
(IF = 20 mA, tp = 20 ms)
(typ.
(max.))
λcentroid
Spectral bandwidth at 50% of Imax
(IF = 20 mA, tp = 20 ms)
(typ.)
Half angle
950
nm
940 (±10)
nm
∆λ
42
nm
(typ.)
ϕ
± 60
Rise and fall time of Ie
(10% and 90% of Ie max)
(IF = 100 mA, tp = 16 µs, RL = 50 Ω)
(typ.)
tr, tf
16
ns
Forward voltage
(IF = 20 mA, tp = 20 ms)
(typ.
(max.))
VF
1.3 (≤ 1.8)
V
IR
not designed for reverse
operation
µA
A
Reverse current
(VR = 5 V)
°
Radiant intensity
(IF = 20 mA, tp = 20 ms)
(typ.)
Ie
3.9
mW / sr
Total radiant flux
(IF = 20 mA, tp = 20 ms)
(typ.)
Φe
11
mW
Temperature coefficient of Ie or Φe
(IF = 20 mA, tp = 20 ms)
(typ.)
TCI
-0.3
%/K
Temperature coefficient of VF
(IF = 20 mA, tp = 20 ms)
(typ.)
TCV
-0.8
mV / K
Temperature coefficient of λcentroid
(IF = 20 mA, tp = 20 ms)
(typ.)
TCλcentroid
0.25
nm / K
2019-04-24
4
Version 1.1
SFH 7072
Characteristics (TA = 25 °C)
Parameter
Symbol
Value
Unit
Red Emitter
Wavelength of peak emission
(IF = 20 mA)
(typ.)
λpeak
Centroid Wavelength
(IF = 20 mA)
(typ.
(max.))
λcentroid
Spectral bandwidth at 50% of Imax
(IF = 20 mA)
(typ.)
Half angle
660
nm
655 (±3)
nm
∆λ
17
nm
(typ.)
ϕ
± 60
Rise and fall time of Ie
(10% and 90% of Ie max)
(IF = 100 mA, tp = 16 µs, RL = 50 Ω)
(typ.)
tr, tf
17
ns
Forward voltage
(IF = 20 mA)
(typ.
(max.))
VF
2.1 (≤ 2.8)
V
IR
not designed for reverse
operation
µA
A
Reverse current
(VR = 12V)
°
Radiant intensity
(IF = 20 mA, tp = 20 ms)
(typ.)
Ie
4.8
mW / sr
Total radiant flux
(IF = 20 mA, tp = 20 ms)
(typ.)
Φe
14
mW
Temperature coefficient of λcentroid
(IF = 20 mA, -10°C ≤ T ≤ 100°C)
(typ.)
TCλcentroid
2019-04-24
5
0.13
nm / K
Version 1.1
SFH 7072
Characteristics (TA = 25 °C)
Parameter
Symbol
Value
Unit
Green Emitter (single emitter)
Wavelength of peak emission
(IF = 20 mA)
(typ.)
λpeak
Centroid Wavelength
(IF = 20 mA)
(typ.
(max.))
λcentroid
Spectral bandwidth at 50% of Imax
(IF = 20 mA)
(typ.)
Half angle
526
nm
530 (±10)
nm
∆λ
32
nm
(typ.)
ϕ
± 60
Rise and fall time of Ie
(10% and 90% of Ie max)
(IF = 100 mA, tp = 16 µs, RL = 50 Ω)
(typ.)
tr, tf
56
ns
Forward voltage
(IF = 20 mA)
(typ.
(max.))
VF
3.0 (≤ 3.4)
V
IR
not designed for reverse
operation
µA
A
Reverse current
(VR = 5 V)
°
Radiant intensity
(IF = 20 mA, tp = 20 ms)
(typ.)
Ie
3.8
mW / sr
Total radiant flux
(IF = 20 mA, tp = 20 ms)
(typ.)
Φe
11
mW
Temperature coefficient of Ιe or Φe
(IF = 20 mA, tp = 20 ms)
(typ.)
TCΙ
-0.35
%/K
Temperature coefficient of λcentroid
(IF = 20 mA, -10°C ≤ T ≤ 100°C)
(typ.)
TCλcentroid
0.03
nm / K
Temperature coefficient of VF
(IF = 20 mA, -10°C ≤ T ≤ 100°C)
(typ.)
TCV
-3.6
mV / K
2019-04-24
6
Version 1.1
SFH 7072
Characteristics (TA = 25 °C)
Parameter
Symbol
Value
Unit
IR-Cut Detector
Photocurrent
(typ.)
(Ee = 0.1 mW/cm2, λ = 530 nm, VR = 5 V)
IP,530
1.1
µA
A
Wavelength of max. sensitivity
(typ.)
λS max
635
nm
Spectral range of sensitivity
(typ.)
λ10%
402 … 694
nm
Radiation sensitive area
(typ.)
A
Dimensions of radiant sensitive area
(typ.)
LxW
Half angle
(typ.)
ϕ
± 57
Dark current
(VR = 5 V, Ee = 0 mW/cm2)
(typ.
(max.))
IR
0.4 (≤ 2)
Spectral sensitivity of the chip
(λ = 530nm)
(typ.)
Sλ530
0.31
A/W
Spectral sensitivity of the chip
(λ > 690nm)
(typ.)
SIR
0.02
A/W
Open-circuit voltage
(Ee = 0.1 mW/cm2, λ = 530 nm)
(typ.)
VO,530
390
mV
Short-circuit current
(Ee = 0.1 mW/cm2, λ = 530 nm)
(typ.)
ISC,530
1.1
µA
A
Rise and fall time
(VR = 5 V, RL = 50 Ω, λ = 530nm)
(typ.)
tr, tf
40
ns
Forward voltage
(IF = 10 mA, E = 0 mW/cm2)
(typ.)
VF
0.84
V
Capacitance
(VR = 5 V, f = 1 MHz, E = 0 mW/cm2)
(typ.)
C0
55
pF
2019-04-24
7
3.46
1.29 x 2.69
mm2
mm x mm
°
nA
Version 1.1
SFH 7072
Characteristics (TA = 25 °C)
Parameter
Symbol
Value
Unit
Broadband Detector
Photocurrent
(typ.)
(Ee = 0.1 mW/cm2, λ = 530nm, VR = 5 V)
IP,530
0.4
µA
A
Photocurrent
(typ.)
2
(Ee = 0.1 mW/cm , λ = 655 nm, VR = 5 V)
IP,655
0.6
µA
A
Photocurrent
(typ.)
2
(Ee = 0.1 mW/cm , λ = 940 nm, VR = 5 V)
IP,940
1.1
µA
A
Wavelength of max. sensitivity
(typ.)
λS max
960
nm
Spectral range of sensitivity
(typ.)
λ10%
410 … 1100
nm
Radiation sensitive area
(typ.)
A
Dimensions of radiant sensitive area
(typ.)
LxW
Half angle
(typ.)
ϕ
± 60
Dark current
(VR = 5 V, Ee = 0 mW/cm2)
(typ.
(max.))
IR
0.05 (≤ 10)
Spectral sensitivity of the chip
(λ = 530 nm)
(typ.)
Sλ530
0.31
A/W
Spectral sensitivity of the chip
(λ = 655nm)
(typ.)
Sλ655
0.56
A/W
Spectral sensitivity of the chip
(λ = 940 nm)
(typ.)
Sλ940
0.84
A/W
Open-circuit voltage
(Ee = 0.1 mW/cm2, λ = 530 nm)
(typ.)
VO,530
211
mV
Short-circuit current
(Ee = 0.1 mW/cm2, λ = 530 nm)
(typ.)
ISC,530
0.4
µA
A
Open-circuit voltage
(Ee = 0.1 mW/cm2, λ = 655nm)
(typ.)
VO,655
249
mV
Short-circuit current
(Ee = 0.1 mW/cm2, λ = 655 nm)
(typ.)
ISC,655
0.6
µA
A
Open-circuit voltage
(Ee = 0.1 mW/cm2, λ =940 nm)
(typ.)
VO,940
266
mV
Short-circuit current
(Ee = 0.1 mW/cm2, λ = 940 nm)
(typ.)
ISC,940
1.1
µA
A
2019-04-24
8
0.88
0.89 x 0.89
mm2
mm x mm
°
nA
Version 1.1
SFH 7072
Characteristics (TA = 25 °C)
Parameter
Symbol
Value
Unit
Rise and fall time
(VR = 5V, RL = 50 Ω, λ = 940 nm)
(typ.)
tr, tf
0.75
µss
Forward voltage
(IF = 100 mA, E = 0 mW/cm2)
(typ.)
VF
1.16
V
Capacitance
(VR = 5 V, f = 1 MHz, E = 0 mW/cm2)
(typ.)
C0
4.2
pF
Diagrams for infrared emitter
Relative spectral emission 1)
Irel = f(λ), TA = 25 °C, IF = 20 mA
2019-04-24
9
Version 1.1
SFH 7072
Diagrams for infrared emitter
Forward current 1)
Relative radiant flux 1)
IF = f(VF), single pulse, tp = 100 µs,
s, TA= 25°C
Φe /Φe(20 mA) = f(IF), single pulse, tp = 25µs,
s, TA= 25°C
Max. permissible forward current 1)
IF,max = f(TA), RthJA = 800 K/W
2019-04-24
10
Version 1.1
SFH 7072
Diagrams for infrared emitter
Permissible pulse handling capability 1)
Permissible pulse handling capability 1)
IF = f(tp), TA= 40°C, duty cycle D = parameter
IF = f(tp), TA= 85°C, duty cycle D = parameter
2019-04-24
11
Version 1.1
SFH 7072
Diagrams for red emitter
Relative spectral emission 1)
Irel = f(λ), TA = 25 °C, IF = 20 mA
Forward current 1)
Relative radiant flux 1)
IF = f(VF), TA= 25°C
Φe /Φe(20 mA) = f(IF), single pulse, tp = 25µs,
s, TA= 25°C
2019-04-24
12
Version 1.1
SFH 7072
Diagrams for red emitter
Max. permissible forward current 1)
IF,max = f(TA), RthJA = 800 K/W
Permissible pulse handling capability 1)
Permissible pulse handling capability 1)
IF = f(tp), TA= 40°C, duty cycle D = parameter
IF = f(tp), TA= 85°C, duty cycle D = parameter
2019-04-24
13
Version 1.1
SFH 7072
Diagrams for green emitters
Relative spectral emission 1)
Irel = f(λ), TA = 25 °C, IF = 20 mA
Forward current 1)
Relative radiant flux 1)
IF = f(VF), TA= 25°C
Φe /Φe(20 mA) = f(IF), single pulse, tp = 25µs,
s, TA= 25°C
2019-04-24
14
Version 1.1
SFH 7072
Diagrams for green emitters
Max. permissible forward current 1)
IF,max = f(TA), RthJA = 800 K/W
Permissible pulse handling capability 1)
Permissible pulse handling capability 1)
IF = f(tp), TA= 40°C, duty cycle D
IF = f(tp), TA= 85°C, duty cycle D
2019-04-24
15
Version 1.1
SFH 7072
Diagrams for IR-Cut detector
Relative spectral sensitivity 1)
Srel = f(λ), TA = 25 °C
Photocurrent 1)
IP(VR = 5 V), λ=530nm, TA = 25 °C
Dark current 1)
Capacitance 1)
IR = f(VR), E = 0 mW/cm2, TA = 25 °C
C = f(VR), f = 1 MHz, E = 0 mW/cm2, TA = 25 °C
2019-04-24
16
Version 1.1
SFH 7072
Diagrams for broadband detector
Relative spectral sensitivity 1)
Srel = f(λ), TA = 25 °C
Photocurrent 1)
IP(VR = 5 V), λ=530, 655nm, 940nm, TA = 25 °C
Dark current 1)
Capacitance 1)
IR = f(VR), E = 0 mW/cm2, TA = 25 °C
C = f(VR), f = 1 MHz, E = 0 mW/cm2, TA = 25 °C
2019-04-24
17
Version 1.1
SFH 7072
Directional characteristics of detectors 1)
Srel = f(j), l=530nm
Radiation characteristics of emitters 1)
Irel = f(j)
2019-04-24
18
Version 1.1
SFH 7072
Package Outline
Dimensions in mm
Package:
chip on board
Approximate Weight:
44 mg
2019-04-24
19
Version 1.1
SFH 7072
Recommended solder pad design
Dimensions in mm.
Reflow Soldering Profile
Product complies to MSL Level 4 acc. to JEDEC J-STD-020D.01
OHA04525
300
˚C
T 250
Tp 245 ˚C
240 ˚C
tP
217 ˚C
200
tL
150
tS
100
50
25 ˚C
0
0
50
100
150
200
250
s 300
t
2019-04-24
20
Version 1.1
SFH 7072
OHA04612
Profil-Charakteristik
Profile Feature
Symbol
Symbol
Pb-Free (SnAgCu) Assembly
Minimum
)
Ramp-up Rate to Preheat*
25 °C to 150 °C
Time tS
TSmin to TSmax
tS
60
Ramp-up Rate to Peak*)
TSmax to TP
Recommendation
Maximum
2
3
100
120
2
3
Einheit
Unit
K/s
s
K/s
Liquidus Temperature
TL
217
Time above Liquidus temperature
tL
80
100
s
Peak Temperature
TP
245
260
°C
Time within 5 °C of the specified peak
temperature TP - 5 K
tP
20
30
s
3
6
K/s
10
Ramp-down Rate*
TP to 100 °C
480
Time
25 °C to TP
All temperatures refer to the center of the package, measured on the top of the component
* slope calculation DT/Dt: Dt max. 5 s; fulfillment for the whole T-range
Method of Taping
Dimensions in mm.
2019-04-24
°C
21
s
Version 1.1
SFH 7072
Tape and Reel
16 mm tape with 1500 pcs. on ∅ 180 mm reel
W1
D0
P0
A
N
F
W
E
13.0 ±0.25
P2
Label
P1
Direction of unreeling
Direction of unreeling
W2
Leader: min. 400 mm *
Trailer: min. 160 mm *
*) Dimensions acc. to IEC 60286-3; EIA 481-D
OHAY0324
Dimensions in mm
Tape Dimensions [mm]
W
P0
16 +0.3 / -0.1
4 ±0.1
Reel Dimensions [mm]
A
W
180
2019-04-24
16
P1
P2
D0
E
F
8 ±0.1
2 ±0.05
1.5 ±0.1
1.75 ±0.1
7.5 ±0.05
Nmin
W1
W2max
60
16.4 +2
22.4
22
Version 1.1
SFH 7072
Barcode-Product-Label (BPL)
OSRAM Opto
EX
AM
P
BIN1: XX-XX-X-XXX-X
LX XXXX
Semiconductors
RoHS Compliant
(6P) BATCH NO: 1234567890
(1T) LOT NO: 1234567890
(9D) D/C: 1234
ML Temp ST
X XXX °C X
Pack: RXX
LE
DEMY
XXX
X_X123_1234.1234 X
(X) PROD NO: 123456789(Q)QTY:
9999
(G) GROUP:
XX-XX-X-X
OHA04563
Dry Packing Process and Materials
Moisture-sensitive label or print
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Barcode label
N
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M
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Humidity indicator
Barcode label
Please check the HIC immidiately after
bag opening.
Discard if circles overrun.
Avoid metal contact.
Do not eat.
Comparator
check dot
WET
If wet,
examine units, if necessary
bake units
15%
If wet,
examine units, if necessary
bake units
10%
5%
If wet,
parts still adequately dry.
change desiccant
Humidity Indicator
MIL-I-8835
AM
OS R
Desiccant
OHA00539
Note:
Moisture-sensitive product is packed in a dry bag containing desiccant and a humidity card.
Regarding dry pack you will find further information in the internet. Here you will also find the normative
references like JEDEC.
2019-04-24
23
Version 1.1
SFH 7072
Transportation Packing and Materials
Barcode label
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Barcode label
Packing
Sealing label
Dimensions of transportation box in mm
Width
Length
195 ± 5
2019-04-24
OHA02044
Height
195 ± 5
42 ± 5
24
Version 1.1
SFH 7072
Disclaimer
Language english will prevail in case of any discrepancies or deviations between the two language wordings.
Attention please!
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.
If printed or downloaded, please find the latest version on the OSRAM OS website.
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.
Product and functional safety devices/applications or medical devices/applications
OSRAM OS components are not developed, constructed or tested for the application as safety relevant component
or for the application in medical devices.
OSRAM OS products are not qualified at module and system level for such application.
In case Buyer – or Customer supplied by Buyer – considers using OSRAM OS components in product safety
devices/applications or medical devices/applications, Buyer and/or Customer has to inform the local sales Partner of
OSRAM OS immediately and OSRAM OS and Buyer and /or Customer will analyse and coordinate the
customer-specific request between OSRAM OS and Buyer and/or Customer.
Glossary
1)
Typical Values: Due to the special conditions of the manufacturing processes of LED and photodiodes, the typical
data or calculated correlations of technical parameters can only reflect statistical figures. These do not
necessarily correspond to the actual parameters of each single product, which could differ from the typical data
and calculated correlations or the typical characteristic line. If requested, e.g. because of technical
improvements, these typ. data will be changed without any further notice.
Published by OSRAM Opto Semiconductors GmbH
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www.osram-os.com © All Rights Reserved.
2019-04-24
25