`
`
`
`BioMon Sensor
`
`Version 1.1
`
`SFH7050
`
`Features:
`¢ Multi chip package featuring 3 emitters and one detector
`« Small package:
`(WxDxH) 4.7 mm x 2.5 mm x 0.9 mm
`e Light Barrier to block optical crosstalk
`
`Applications
`¢ Heart rate monitoring
`e Pulse oximetry
`
`for:
`¢ Wearable devices (e.g. smart watches, fitness trackers, ...)
`¢ Mobile devices
`
`Ordering Information SFH7050 BioMon
`
`
`
`Type:
`Ordering Code
`SFH7050
`Q65111A6271
`
`
`
`—_
`
`}
`
`OS Ri iv]
`
`Opto Semiconductors
`MASITC_01080540
`
`PAGE 1 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Pin configuration
`
`Top view
`
`Pin|Name|Function
`
`
`
`PINS |
`“Than
`eee
`
`is tia |
`
`
`
`
`ao |
`oe
`Infrared LED Anode
`IA
`7
`
`
`8 IC|Infrared LED Cathode PINE| Photodoue | PIN)
`
`
`1
`GC
`Green LED Cathode
`
`2
`GA
`Green LED Anode
`3
`RA
`RedLEDAncde
`
`4
`PA
`Photodiode Anode
`
`5
`PC
`Photodiode Cathode
`
`6
`RC
`Red LED Cathode
`
`
`
`
`OC PA
`
`
`
`Block diagram
`
`GAO
`
`Green LED
`
`Photodiode
`
`
`
`_—
`
`OSR/ \M
`
`Opto Semiconductors
`MASITC_01080541
`
`PAGE 2 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`
`General
`
`Operating temperature range
`Tap
`-40 .... 85
`°C
`
`Storage temperature range
`Tstg
`-40 ... 85
`°C
`ESD withstand voltage
`Vesp
`2
`kV
`(acc. to ANSI/ ESDA/ JEDEC JS-001 - HBM)
`
`Infrared Emitter
`Reverse Voltage
`Forward current
`
`(t, = 100 ps, D = 0)
`
`
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`
`Maximum Ratings (T, = 25 °C)
`
`Parameter
`Symbol
`Values
`Unit
`
`
`
`Surge current
`
`
` Red Emitter
`
`Reverse voltage
`Ve
`12
`Vv
`
`Forward current
`I (oe)
`40
`mA
`Surge current
`les
`600
`mA
`
`(t, = 100 ps, D = 0)
`
`Green Emitter
`
`Reverse voltage
`Ve
`not designed for reverse
`Vv
`
`operation
`
`Forward current
`le (oe)
`25
`mA
`Surge current
`les
`300
`mA
`
`(t, = 100 ps, D = 0)
`
`Detector
`
`Reverse voltage
`
`Va
`
`16
`
`Vv
`
`Note: The stated maximum ratings refer to single emitter chip operation, unless otherwise specified.
`
`
`
`_—
`
`OSR/ \M
`
`Opto Semiconductors
`MASITC_01080542
`
`PAGE 3 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`Version 1.1
`SFH7050
`
`
`
`Characteristics (T, = 25 °C)
`
`
`
`Parameter Symbol|Value Unit
`
` Infrared Emitter
`
`Wavelength of peak emission
`(typ.)
`peak
`950
`nm
`
`(I; = 20 mA, t, = 20 ms)
`Centroid Wavelength
`(typ.
`Aesntraid
`940 (+10)
`nm
`
`(I; = 20 mA,t, = 20 ms)
`(max.))
`Spectral bandwidth at 50% of Imax
`(typ.)
`Ad
`42
`nm
`
`(I; = 20 mA, t, = 20 ms)
`Half angle
`
`(typ.)
`
`(typ.)
`
`@
`
`tt
`
`+ 60
`
`2
`
`16
`
`ns
`
`Forward voltage Ve|1.3(5 1.8)(typ. Vv
`
`
`
`Rise andfall time of |,
`(10% and 90% of |g max)
`(Iz = 100 mA, t, = 16 us, R, = 50 Q)
`
`
`
`(I; = 20 mA, t, = 20 ms)
`(max.))
`
`Reverse current not designed for reverse|HAln
`operation
`
`
`
`
`
`
`
`
`
`
`
`
`
`le
`
`(typ.)
`
`2
`
`mW /sr
`
`-0.8
`
`0.25
`
`mV/K
`
`nm/K
`
`Radiantintensity
`(I; = 20 mA,t, = 20 ms)
`Total radiant flux
`(typ.)
`®,
`5.3
`mw
`
`(I; = 20 mA, t, = 20 ms)
`Temperature coefficient of |, or ®,
`(typ.)
`TC,
`-0.3
`% IK
`
`(I; = 20 mA, t, = 20 ms)
`Temperature coefficient of V-
`(I; = 20 mA, t, = 20 ms)
`Temperature coefficient Of Acentroid
`(I; = 20 mA, t, = 20 ms)
`
`(typ.)
`
`(typ.)
`
`TCy
`
`TCacentroid
`
`
`
`_
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080543
`
`PAGE 4 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`
`Characteristics (T, = 25 °C)
`
`Parameter
`
`
`Symbol|Value Unit
`Red Emitter
`
`
`Wavelength of peak emission
`(typ.)
`peak
`660
`nm
`
`(Ip = 20 mA)
`
`
`Centroid Wavelength
`(typ.
`eseiveia
`655 (+3)
`nm
`
`(lp = 20 mA)
`(max.))
`
`
`nm
`17
`Ad
`(typ.)
`Spectral bandwidth at 50% of Imax
`
`(I; = 20 mA)
`
`
`Half angle
`
`Rise andfall time of |,
`(10% and 90% of |. max)
`
`(Iz = 100 mA, t, = 16 us, R, = 50 Q)
`
`
`
`Forward voltage
`(I; = 20 mA)
`
`
`
`Reverse current not designed for reverse|HA(typ. ln
`
`
`
`(max.))
`operation
`
`
`
`
`
`6.4
`
`0.13
`
`mw
`
`nm/K
`
`
`
`
`
`(typ.)
`
`(typ.)
`
`®,
`
`TCrcentroid
`
`
`
`
`
`Radiantintensity
`(typ.)
`le
`2.6
`mW / sr
`
`(I; = 20 mA, t, = 20 ms)
`Total radiantflux
`(I; = 20 mA, t, = 20 ms)
`Temperature coefficient Of Acentroid
`(Ip = 20 mA, -10°C s T s 100°C)
`
`
`
`—_
`
`.
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080544
`
`PAGE 5 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`Version 1.1
`SFH7050
`
`
`
`Characteristics (T, = 25 °C)
`
`
`
`Parameter Symbol|Value Unit
`
`Green Emitter
`
`Wavelength of peak emission
`(typ.)
`peak
`525
`nm
`
`(Ip = 20 mA)
`
`Centroid Wavelength
`(typ.
`Aesntraid
`530 (+10)
`nm
`
`(lp = 20 mA)
`(max.))
`
`Spectral bandwidth at 50% of Imax
`(typ.)
`An
`34
`nm
`
`(Ip = 20 mA)
`Half angle
`
`Rise andfall time of |,
`(10% and 90% of |. max)
`(Iz = 100 mA, t, = 16 us, R, = 50 Q)
`(typ.
`Forward voltage
`(max.))
`(I; = 20 mA)
`Reverse current not designed for reverse|HAln
`
`
`
`operation
`
`+ 60
`
`S
`
`32
`
`3.4 (s 4.4)
`
`ns
`
`Vv
`
`
`
`
`
`
`
`
`
`(typ.)
`
`(typ.)
`
`@
`
`tt
`
`Ve
`
`
`
`
`
`Radiantintensity
`(typ.)
`le
`1.3
`mW / sr
`
`(I; = 20 mA, t, = 20 ms)
`Total radiant flux
`(typ.)
`®,
`2.9
`mw
`
`(I; = 20 mA, t, = 20 ms)
`Temperature coefficient Of Acentroid
`(Ip = 20 mA, -10°C < T s 100°C)
`Temperature coefficient of V-
`(Ip = 20 mA, -10°C = T s 100°C)
`
`(typ.)
`
`(typ.)
`
`TCrcentroid
`
`TCy
`
`0.03
`
`-3.60
`
`nm/K
`
`mV/K
`
`
`
`—_
`
`.
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080545
`
`PAGE 6 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`Version 1.1
`SFH7050
`
`
`
`Characteristics (T, = 25 °C)
`
`
`
`Parameter Symbol|Value Unit
`
` Detector
`
`Photocurrent
`(typ.)
`lp530
`0.42
`pA
`
`(E.= 0.1 mW/cm?, 2. = 530 nm, Va=5 V)
`Photocurrent
`(typ.)
`lp655
`0.76
`pA
`
`(E,= 0.1 mWicm?, 2. = 655 nm, V_a=5 V)
`Photocurrent
`(typ.)
`lp940
`1.3
`pA
`
`(E,= 0.1 mWicm?, 2. = 940 nm, Va=5 V)
`
`Wavelength of max. sensitivity
`(typ.)
`Ag max
`920
`nm
`
`Spectral range of sensitivity
`(typ.)
`Aro%
`400 ... 1100
`nm
`
`Radiation sensitive area
`(typ.)
`A
`1.7
`mm?
`
`Dimensionsof radiant sensitive area
`(typ.)
`LxW
`1.3x1.3
`mm x mm
`
`Dark current
`(typ.
`ln
`1 (§ 5)
`nA
`
`(Va = 5 V, Ee = 0 mW/cm?)
`(max.))
`Spectral sensitivity of the chip
`(typ.)
`Siexg
`0.26
`A/W
`
`(A = 530 nm)
`
`Spectral sensitivity of the chip
`(typ.)
`Shere
`0.47
`A/W
`
`(A = 655nm)
`
`Spectral sensitivity of the chip
`(typ.)
`S349
`0.77
`A/W
`
`(A = 940 nm)
`
`
`
`
`
`
`
`
`
`Open-circuit voltage
`(typ.)
`Vos30
`240
`mV
`
`(E,= 0.1 mW/cm?, 2. = 530 nm)
`Short-circuit current
`(typ.)
`Iso.530
`0.40
`HA
`
`(E,= 0.1 mW/cm?, 2. = 530 nm)
`Open-circuit voltage
`(typ.)
`Voss
`250
`mV
`
`(E,= 0.1 mW/cm?, 2. = 655nm)
`Short-circuit current
`(typ.)
`Isc.ess
`0.71
`HA
`
`(E,= 0.1 mW/cm?, 2. = 655 nm)
`Open-circuit voltage
`(E,= 0.1 mWicm?, 2. =940 nm)
`Short-circuit current
`(E,= 0.1 mW/cm?, 2. = 940 nm)
`
`(typ.)
`
`(typ.)
`
`Vo940
`
`Isc,940
`
`270
`
`1.2
`
`mV
`
`HA
`
`
`
`
`
`—_
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080546
`
`PAGE 7 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`Version 1.1
`SFH7050
`
`
`
`Characteristics (T, = 25 °C)
`Parameter Symbol|Value Unit
`
`
`Rise andfall time
`(typ.)
`t,t
`2.3
`ys
`(Va = 3.3 V, R, = 50 Q, 2 = 940 nm)
`Forward voltage
`(I- = 10 mA, E = 0 mWicm?)
`Capacitance
`(Va =5V,f=1 MHz, E =0 mWiem’)
`
`0.9
`
`5
`
`
`
`Vv
`
`pF
`
`
`
`
`
`
`
`VE
`
`Cy
`
`(typ.)
`
`(typ.)
`
`
`
`
`
`
`
`_—
`
`.
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080547
`
`PAGE 8 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Diagrams for infrared emitter
`Relative spectral emission 1)
`let = f(A), Ta =25 °C,
`le =20mA
`100
`%
`
`let
`
`90
`
`80 |
`
`40 +
`
`70
`
`60
`
`50
`
`30
`
`20
`
`10
`
`0
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`800
`
`.
`850
`
`Forward current ”?
`lz = f(V-), single pulse, t, = 100 ps, Ta= 25°C
`1000
`
`mA
`
`
`Ir
`
`
`
`950
`
`1000
`>)
`
`nm 1050
`
`Relative radiantflux "
`®, /,(20 mA) = f(I-), single pulse, t, = 25ys, Ta= 25°C
`100
`
`QD,
`©,(20 mA)
`
`
`
`100
`
`10
`
`1
`
`
`
`
`
`
`
`
`
`
`
`
`0
`
`1
`
`2
`
`3
`—> V,_
`
`” ft
`
`10
`
`100
`ee
`
`mA 1000
`
`
`
`2016-04-20
`
`OSR A M
`
`Opto Semiconductors
`MASITC_01080548
`
`PAGE 9 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Diagrams for infrared emitter
`Max. permissible forward current ”?
`lemax = f(T), Rinsa = 800 K/W
`
`79
`mA
`
`I
`
`' 604
`
`50 -
`
`
`
`40
`
`
`
`30 -
`
` 20 -
`
`Permissible pulse handling capability Y
`le = f(t,), Ta= 40°C, duty cycle D = parameter
`
`
`
`
`
`
`
`
`
`
`
`
`
`14
`
`
`Permissible pulse handling capability Y
`le =f(t,), Ta= 85°C, duty cycle D = parameter
`AeA
`
`O11
`
` ee
`
`
`0.5 7
`
`0.4 4
`
`0.3 -
`
`0.24
`
`LEB Ed TE LE
`
`1.E-1s 1.E:0
`:
`ee
`
`1E6
`
`1.E5 Ed
`
`1E2
`
` 1.E1 5 1.640
`— t,
`
`
`
`_—
`
`"
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080549
`
`PAGE 10 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Diagrams for red emitter
`Relative spectral emission y
`let = f(A), Ta =25 °C,
`le =20mA
`100
`oy
`let 90
`4
`80
`70
`
`60
`
`50
`
`40
`
`30 +
`
`20
`
`10
`
`0
`
`550
`
`600
`
`650
`
`700
`
`nm 750
`
`Forward current ”?
`
`1000
`mA
`
`Ip
`
`100
`
`10
`
`1
`
`Ip = 1(V,), Ta= 25°C
`
`Relative radiantflux ")
`®, /,(20 mA)= f(I-), single pulse,t, = 25ys, Ta= 25°C
`100
`
`
`
`
`
`
`
`10
`
`mA 1000
`
`100
`——> lr
`
`o,
`©,(20 mA)
`
`10
`
`1
`
`0.1
`
`
`2016-04-20
`1
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080550
`
`PAGE 11 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Diagrams for red emitter
`Max. permissible forward current ”?
`lemax = f(Ta), Ringa = 800 K/W 50 +
`mA
`45 +
`
`I
`
`40 +
`35
`30 5
`25
`20 -
`
`
`
`
`Permissible pulse handling capability Y
`le = f(t,), Ta= 40°C, duty cycle D = parameter
`07
`A
`h
`| 0.6 5
`
`\
`
`
`0.5 +H} 4
`
`eT 'p
`Dez
`Ie
`LT A
`rT pe0.005
`0.01
`0.02
`7170.05
`0.1
`0.2
`0.5
`fy \
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`Permissible pulse handling capability Y
`le =f(t,), Ta= 85°C, duty cycle D = parameter
`C—Oee!
`lpt
`.
`D-t
`h
`| 0.6a in
`
`T-~
`
`Ip
`A
`
`
`
`
`
`
`
`
`0.4
`
`rot
`
`og ji Lf
`
`02 Se C a|
`
`Ot pL 7
`
`04 A| 0SS t
`166
`4165
`164
`163
`41.62
`164s 1.640
`1E6
`165
`164
`163
`1.62
`—t,
`
`1
`1.615 1.640
`—t
`
`
`2016-04-20
`
`:
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080551
`
`PAGE 12 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Diagrams for green emitter
`Relative spectral emission ")
`
`let = (2), Ta =25 "G, le =20mA
`100o
`
`let 90
`4
`80
`70
`
`
`
`
`
`0 pa
`
`450 500 550 nm=650600
`
`
`
`>)
`
`Forward current ”?
`I = 1(V,), Ta= 25°C
`
`1000
`mA
`
`
`
`
`Ip
`
`Relative radiantflux "
`®, /D,(20 mA)= f(I,), single pulse, t, = 25ys, Ta= 25°C
`10
`
`®.
`,(20 mA)
`
`100
`
`10
`
`1
`
`
`
`
`
`
`
`
`
`
`2
`
`3
`
`Vv 5
`4
`—> V_
`
`1
`
`0.1
`
`i
`
`z
`
`mA
`
`100
`
`10
`
`— Ik
`
`
`2016-04-20
`13
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080552
`
`PAGE 13 OF 23
`
`MASIMO2056
`Apple v. Masimo
`IPR2022-01299
`
`60
`
`50
`
`40
`
`30
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Diagrams for green emitter
`Max. permissible forward current ”?
`
`lemax = f(T), Rinsa = 800 K/W
`30
`mA
`
`
`
`
`+
`
`
`
`
`
`
`t
`t
`t
`t
`t
`t
`t
`t
`
`
`
`I
`
`= 2
`
`0
`
`0+
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
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`
`
`0
`
`10
`
`20
`
`30
`
`40
`
`50
`
`60
`
`70 80, 90
`—T,
`
`Permissible pulse handling capability Y
`Permissible pulse handling capability Y
`
`le = f(t,), Ta= 40°C, duty cycle D = parameter
`le =f(t,), Ta= 85°C, duty cycle D = parameter
`0.35
`0.35
`TH
`7H
`
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`
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`
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`165
`165
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`—t
`
`
`
`—_
`
`,
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080553
`
`PAGE 14 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Diagrams for detector
`Relative spectral sensitivity "
`Sie = 10), Ty = 25 °C
`
`Photocurrent1
`
`10
`
`
`
`
`
`
`600
`700
`900
`800
`1000
`1100
`nm
`
`--- 530nm
`— -655nm
`— 940nm
`
`100
`
`pW/em?
`— ree
`
`1000
`
` Ip(Va=5 V), Ta = 25°C
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`Dark current ”
`
`In =f(Vq), E = 0 mWem?,T, = 25°C
`2
`nA
`{ 18
`‘
`
`|_
`
`
`
`Capacitance ")
`C={(V,), f= 1 MHz, E = 0 mWiem?, T, = 25°C
`20
`pF
` @ tH
`t
`
`
`
`
`
`
`2016-04-20
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080554
`
`PAGE 15 OF 23
`
`MASIMO2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`Version 1.1
`SFH7050
`
`
`Directional characteristics of detector '
`Sie = f(@)
`
`40°
`30°
`20°
`10°
`0°
`OHLO1680
`
`
`= P94
`
`
`0.8
`
`
`0.6
`
`
`0.4
`
`
`0.2
`
`
`50°
`
`60°
`
`70°
`
`80°
`
`90"
`
`
`0
`
`
`1.0
`
`0.8
`
`0.6
`
`0.4
`
`100°
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`Radiation characteristics of emitters ")
`lret = f(@)
`
`
`
`
`
`
` 0.6
` 05
` 04
`Ba 03
`0.2
` 0.4
`0.0
`
`20°
`
`oe
`
`20°
`
`40°
`
`60°
`
`80°
`
`10 4g 12m
`
`
`2016-04-20
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080555
`
`PAGE 16 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Package Outline
`
`1.38
`
`
`
`Pint
`Pin2
`Ping
`Pind
`Piné
`Piné
`Pin?
`Ping
`
`Green LED cathode
`Green LED anode
`Red LED anode
`PO anode
`PO cathode
`Red LED cathode
`IR LED anode
`IR LED cathode
`
`BOTTOM VIEW
`
`SIDE VIEW
`
`TOP VIEW
`
`18
`
`09:04
`
`2.5204
`|
`
`
`
`
`
`(63062-A4246-A1-04
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`TOP VIEW /
`Pad Info
`
`Dimensions in mm.
`
`Package:
`chip on board
`
`Approximate Weight:
`18mg
`
`
`2016-04-20
`17
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080556
`
`PAGE 17 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Recommendedsolder pad design
`2bwTrH
`oslestrl
`eategrt
`
`-
`
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`
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`
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`
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`
`Y solder resist
`
`solder stencil
`
`Component Lactation on Pad
`
`
`
`Dimensions in mm (inch).
`
`E062.9000.177-01
`
`Reflow Soldering Profile
`Product complies to MSLLevel 4 acc. to JEDEC J-STD-020D.01
`OHA04525 300
`6
`T 250 |
`240 °C
`217°C | | tp
`
`
`
`:
`7, 245 °C
`
`
`
`
`
`200
`
`150
`
`
`
`
` 100
`
`50 -
`H——. 25 °C
`fon
`fie
`fom
`
`0
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`50
`
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`
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`100
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`200
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`
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`vm
`
`fin
`s
`250
`——» }
`
`offe
`
`ml
`300
`
`
`
`2016-04-20
`
`18
`
`OS[fe A iv
`
`Opto Semiconductors
`MASITC_01080557
`
`PAGE 18 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`
`
`Time ts
`ts
`60
`100
`120
`s
`
`Tmin 10 Tmax
`Ramp-uprate to peak”?
`2
`3
`Kis
`
`Temax to Tp
`
`Liquidus temperature
`T,
`217
`°C
`
`Time above liquidus temperature
`t
`80
`100
`s
`
`Peak temperature
`Tp
`245
`260
`°C
`
`Time within 5 °C of the specified peak|tp 10 20 30 s
`
`
`
`
`temperature T, - 5K
`Ramp-downrate*
`Tp to 100 °C
`Time
`25 °C to T,
`All temperaturesrefer 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
`
`6
`
`480
`
`Kis
`
`s
`
`CX-0695
`
`Version 1.1
`SFH7050
`
`
`
`OHA04612
`
`Pb-Free (SnAgCu) Assembly
`Profile Feature
`Symbol
`Unit
`
`Profil-Charakteristik Symbol|jwinimum|Recommendation|Maximum|Einheit
`
`Ramp-uprate to preheat*
`2
`3
`Kis
`25 °C to 150 °C
`
`
`
`
`
`
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`Method of Taping
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`7
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`
`Emitter side
`(2.7 [0.106"]
`
`1.2 [0.047"]
`
`Dimensions in mm finch].
`
`
`2016-04-20
`
`OSRAM
`
`Opto Semiconductors
`MASITC_01080558
`
`PAGE 19 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Tape and Reel
`12 mm tape with 3000 pcs. on @ 180 mm reel
`
`
`
`
`
`Dimensions in mm
`
`Direction of unreeling
`
`Leader: min. 400 mm *
`
`Trailer: min. 160 mm *
`*) Dimensions acc. to IEC 60286-3; EIA 481-DOHAY0324
`
`
`
`
`Tape Dimensions [mm]
`Ww
`P,
`P,
`P,
`Dy
`E
`F
`1240.3/-0.1
`|420.1
`4+0.1
`2 +0.05
`1.5+0.1
`1.75 +0.1
`5.5 +0.05
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`Reel Dimensions [mm]
`A
`Ww
`180
`12
`
`
`
`Ninin
`60
`
`
`
`Ww,
`12.442
`
`
`
`
`
`Womax
`18.4
`
`
`
`_—
`
`"
`
`OSR/ \M
`
`Opto Semiconductors
`MASITC_01080559
`
`PAGE 20 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Barcode-Product-Label (BPL)
`
`BATCH
`
`
`
`LOOK
`
`BINT: XX20CXXKK-X
`
`RoHS Compliant
`
`OSRAM Opto
`
`
`
`
`
`ML Temp
`ST 4 a
`
`
`(17) LoT No: 123456789
`
`
`
`
`
`
`lliifil;ililiiliil
` Barcodelabel
`
`
`
`
`OHA04563
`
`Dry Packing Process and Materials
`
`Moisture-sensitive labelor print
`
`SS A> Humidityindicator
`[baal
`°
`eS
`
`
`
`
`
`Barcodelabel
`
`OHA00539
`
`Desiccant
`
`Note:
`Moisture-sensitive product is packed in a dry bag containing desiccant and a humidity card.
`Regarding dry pack youwill find further information in the internet. Here you will also find the normative
`referenceslike JEDEC.
`
`
`
`_—
`
`:
`
`OSR/ \M
`
`Opto Semiconductors
`MASITC_01080560
`
`PAGE 21 OF 23
`
`MASIMO2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Transportation Packing and Materials
`
`
`
`
`Barcode label
`
`OHA02044
`
`
`Dimensions of transportation box in mm
`Width
`Length
`19545
`19545
`
`
`
`
`
`
`Height
`4245
`
`
`
`_—
`
`"
`
`OSR/ \M
`
`Opto Semiconductors
`MASITC_01080561
`
`PAGE 22 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`
`
`CX-0695
`
`SFH7050
`Version 1.1
`
`
`Disclaimer
`
`Languageenglishwill 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.?|f printed or downloaded, please find
`the latest versionin the Internet.
`Packing
`Please use the recycling operators known to you. We can also help you — get in touch with your nearestsalesoffice.
`?By agreementwewill 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.
`Componentsusedin life-support devices or systems must be expressly authorized for such purpose!
`Critical components* may only be usedin life-support devices** or systems with the express written approval of
`OSRAM OS.
`
`*) A critical component is a component usedinalife-support device or system whosefailure can reasonably be
`expected to causethefailure of that life-support device or system,orto affect its safety or the effectiveness of that
`device or system.
`*“) Life support devices or systems are intended (a) to be implanted in the human body, or (6) to support and/or
`maintain and sustain humanlife.If they fail, it is reasonable to assumethat the health andthelife of the user may be
`endangered.
`
`Glossary
`) 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
`LeibnizstraBe 4, D-93055 Regensburg
`www.osram-os.com © All Rights Reserved.
`
`LURolIS and China RolIS compliant product
`
`ILBBS IRE ROHS HSA ER -
`
`
`
`
`
`BRO EMEA AMAME , TERSASVARTR.
`
`
`
`_—
`
`"
`
`OSR/ \M
`
`Opto Semiconductors
`MASITC_01080562
`
`PAGE 23 OF 23
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`MASIMO 2056
`Apple v. Masimo
`IPR2022-01299
`
`