SMAJ Series Datasheet by Bourns Inc.

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UL Recognized El” MA .C H BOURNS'
Features
n RoHS compliant*
n Surface Mount SMA package
n Standoff Voltage: 5.0 to 495 volts
n Power Dissipation: 400 watts
n UL Recognized
Applications
n IEC 61000-4-2 ESD (Min. Level 4)
n IEC 61000-4-4 EFT
n IEC 61000-4-5 Surge
Electrical Characteristics (@ TA = 25 °C Unless Otherwise Noted)
SMAJ Transient Voltage Suppressor Diode Series
*RoHS Directive 2015/863, Mar 31, 2015 and Annex.
Specifications are subject to change without notice.
Users should verify actual device performance in their specific applications.
The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf.
Parameter Symbol Value Unit
Minimum Peak Pulse Power Dissipation (TP = 1 ms) (Note 1,2) PPK 400 Watts
Peak Forward Surge Current
8.3 ms Single Half Sine Wave Superimposed on Rated Load
(JEDEC Method) (Note 3)
IFSM 40 Amps
Steady State Power Dissipation @ TL = 75 °C PM(AV) 1.0 Watts
Maximum Instantaneous Forward Voltage @ IPP = 35 A
(For Unidirectional Units Only)
SMAJ5.0A ~ SMAJ90A
SMAJ100A ~ SMAJ495A VF
3.5
5.0 Volts
Operating Temperature Range TJ-55 to +150 °C
Storage Temperature Range TSTG -55 to +150 °C
1. Non-repetitive current pulse, per Pulse Waveform graph and derated above TA = 25 °C per Pulse Derating Curve.
2. Thermal Resistance Junction to Lead.
3. 8.3 ms Single Half-Sine Wave duty cycle = 4 pulses maximum per minute (unidirectional units only).
General Information
The markets of portable communications, computing and video
equipment are challenging the semiconductor industry to develop
increasingly smaller electronic components.
Bourns offers Transient Voltage Suppressor Diodes for surge and
ESD protection applications, in compact chip package DO-214AC
(SMA) size format. The Transient Voltage Suppressor series offers a choice of Working Peak Reverse Voltage from 5 V up to 495 V and
Breakdown Voltage up to 550 V. Typical fast response times are less than 1.0 picoseconds for unidirectional devices and less than 5.0
picoseconds for bidirectional devices from 0 V to Minimum Breakdown Voltage.
Bourns® Chip Diodes conform to JEDEC standards, are easy to handle with standard pick and place equipment and the flat configuration
minimizes roll away.
Asia-Pacific:
Tel: +886-2 2562-4117
Email: asiacus@bourns.com
Europe:
Tel: +36 88 885 877
Email: eurocus@bourns.com
The Americas:
Tel: +1-951 781-5500
Email: americus@bourns.com
www.bourns.com
How to Order
SMAJ 5.0 CA - H
Package
SMAJ = SMA/DO-214AC
Working Peak Reverse Voltage
5.0 = 5.0 VRWM (Volts)
Suffix
A = 5 % Tolerance Unidirectional Device
CA = 5 % Tolerance Bidirectional Device
Reel
(blank) = 13 inch reel
-H = 7 inch reel
WARNING Cancer and Reproductive Harm - www.P65Warnings.ca.gov
Agency Recognition
Description
UL File Number: E153537
BOURNS‘
Specifications are subject to change without notice.
Users should verify actual device performance in their specific applications.
The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf.
SMAJ Transient Voltage Suppressor Diode Series
Electrical Characteristics (@ TA = 25 °C Unless Otherwise Noted)
Unidirectional
Device Bidirectional Device Breakdown Voltage
VBR (Volts)
Working
Peak
Reverse
Voltage
Maximum
Reverse
Leakage
@ VRWM
Maximum
Clamping
Voltage
@ Ipp
(10/1000 µs)
Maximum
Peak
Pulse
Current
(10/1000 µs)
Maximum
Clamping
Voltage
@ Ipp
(8/20 µs)
Maximum
Peak
Pulse
Current
(8/20 µs)
Part No. Marking Part No. Marking Min. Max. @ IT
(mA)
VRWM
(V)
IR
(μA)
Vc
(V)
Ipp
(A)
Vc
(V)
Ipp
(A)
SMAJ5.0A HE SMAJ5.0CA TE 6.40 7.00 10 5.0 800 9.2 43.5 12.0 217.5
SMAJ6.0A HG SMAJ6.0CA TG 6.67 7.37 10 6.0 800 10.3 38.8 13.4 194.0
SMAJ6.5A HK SMAJ6.5CA TK 7.22 7.98 10 6.5 500 11.2 35.7 14.6 178.5
SMAJ7.0A HM SMAJ7.0CA TM 7.78 8.60 10 7.0 200 12.0 33.3 15.6 166.5
SMAJ7.5A HP SMAJ7.5CA TP 8.33 9.21 1.0 7.5 100 12.9 31.0 16.8 155.0
SMAJ8.0A HR SMAJ8.0CA TR 8.89 9.83 1.0 8.0 50 13.6 29.4 17.7 147.0
SMAJ8.5A HT SMAJ8.5CA TT 9.44 10.4 1.0 8.5 20 14.4 27.8 18.7 139.0
SMAJ9.0A HV SMAJ9.0CA TV 10.0 11.1 1.0 9.0 10 15.4 26.0 20.0 130.0
SMAJ10A HX SMAJ10CA TX 11.1 12.3 1.0 10 5 17.0 23.5 22.1 117.5
SMAJ11A HZ SMAJ11CA TZ 12.2 13.5 1.0 11 1.0 18.2 22.0 23.7 110.0
SMAJ12A IE SMAJ12CA UE 13.3 14.7 1.0 12 1.0 19.9 20.1 25.9 100.5
SMAJ13A IG SMAJ13CA UG 14.4 15.9 1.0 13 1.0 21.5 18.6 28.0 93.0
SMAJ14A IK SMAJ14CA UK 15.6 17.2 1.0 14 1.0 23.2 17.2 30.2 86.0
SMAJ15A IM SMAJ15CA UM 16.7 18.5 1.0 15 1.0 24.4 16.4 31.7 82.0
SMAJ16A IP SMAJ16CA UP 17.8 19.7 1.0 16 1.0 26.0 15.4 33.8 77.0
SMAJ17A IR SMAJ17CA UR 18.9 20.9 1.0 17 1.0 27.6 14.5 35.9 72.5
SMAJ18A IT SMAJ18CA UT 20.0 22.1 1.0 18 1.0 29.2 13.7 38.0 68.5
SMAJ20A IV SMAJ20CA UV 22.2 24.5 1.0 20 1.0 32.4 12.3 42.1 61.5
SMAJ22A IX SMAJ22CA UX 24.4 26.9 1.0 22 1.0 35.5 11.3 46.2 56.5
SMAJ24A IZ SMAJ24CA UZ 26.7 29.5 1.0 24 1.0 38.9 10.3 50.6 51.5
SMAJ26A JE SMAJ26CA VE 28.9 31.9 1.0 26 1.0 42.1 9.5 54.7 47.5
SMAJ28A JG SMAJ28CA VG 31.1 34.4 1.0 28 1.0 45.4 8.8 59.0 44.0
SMAJ30A JK SMAJ30CA VK 33.3 36.8 1.0 30 1.0 48.4 8.3 62.9 41.5
SMAJ33A JM SMAJ33CA VM 36.7 40.6 1.0 33 1.0 53.3 7.5 69.3 37.5
SMAJ36A JP SMAJ36CA VP 40 44.2 1.0 36 1.0 58.1 6.9 75.5 34.5
SMAJ40A JR SMAJ40CA VR 44.4 49.1 1.0 40 1.0 64.5 6.2 83.9 31.0
SMAJ43A JT SMAJ43CA VT 47.8 52.8 1.0 43 1.0 69.4 5.8 90.2 29.0
SMAJ45A JV SMAJ45CA VV 50 55.3 1.0 45 1.0 72.7 5.5 94.5 27.5
SMAJ48A JX SMAJ48CA VX 53.3 58.9 1.0 48 1.0 77.4 5.2 100.6 26.0
SMAJ51A JZ SMAJ51CA VZ 56.7 62.7 1.0 51 1.0 82.4 4.9 107.1 24.5
SMAJ54A RE SMAJ54CA WE 60 66.3 1.0 54 1.0 87.1 4.6 113.2 23.0
SMAJ58A RG SMAJ58CA WG 64.4 71.2 1.0 58 1.0 93.6 4.3 121.7 21.5
SMAJ60A RK SMAJ60CA WK 66.7 73.7 1.0 60 1.0 96.8 4.1 125.8 20.5
SMAJ64A RM SMAJ64CA WM 71.1 78.6 1.0 64 1.0 103 3.9 133.9 19.5
SMAJ70A RP SMAJ70CA WP 77.8 86.0 1.0 70 1.0 113 3.5 146.9 17.5
SMAJ75A RR SMAJ75CA WR 83.3 92.1 1.0 75 1.0 121 3.3 157.3 16.5
SMAJ78A RT SMAJ78CA WT 86.7 95.8 1.0 78 1.0 126 3.2 163.8 16.0
SMAJ85A RV SMAJ85CA WV 94.4 104 1.0 85 1.0 137 2.9 178.1 14.5
SMAJ90A RX SMAJ90CA WX 100 111 1.0 90 1.0 146 2.7 189.8 13.5
SMAJ100A RZ SMAJ100CA WZ 111 123 1.0 100 1.0 162 2.5 210.6 12.5
SMAJ110A SE SMAJ110CA XE 122 135 1.0 110 1.0 177 2.3 230.1 11.5
SMAJ120A SG SMAJ120CA XG 133 147 1.0 120 1.0 193 2.1 250.9 10.5
SMAJ130A SK SMAJ130CA XK 144 159 1.0 130 1.0 209 1.9 271.7 9.5
SMAJ150A SM SMAJ150CA XM 167 185 1.0 150 1.0 243 1.6 315.9 8.0
SMAJ160A SP SMAJ160CA XP 178 197 1.0 160 1.0 259 1.5 336.7 7.5
SMAJ170A SR SMAJ170CA XR 189 209 1.0 170 1.0 275 1.5 357.5 7.5
SMAJ180A ST SMAJ180CA XT 201 222 1.0 180 1.0 292 1.4 379.6 7.0
SMAJ200A SV SMAJ200CA XV 224 247 1.0 200 1.0 324 1.2 421.2 6.0
SMAJ220A SX SMAJ220CA XX 246 272 1.0 220 1.0 356 1.1 462.8 5.5
SMAJ250A SZ SMAJ250CA XZ 279 309 1.0 250 1.0 405 1.0 526.5 5.0
SMAJ300A FE SMAJ300CA GE 335 371 1.0 300 1.0 486 0.8 631.8 4.0
SMAJ350A FG SMAJ350CA GG 391 432 1.0 350 1.0 567 0.7 737.1 3.5
SMAJ400A FK SMAJ400CA GK 447 494 1.0 400 1.0 648 0.6 842.4 3.0
SMAJ434A 434U SMAJ434CA 434D 485 535 1.0 434 1.0 698 0.6 907.4 2.9
SMAJ440A FM SMAJ440CA GM 492 543 1.0 440 1.0 713 0.6 926.9 3.0
SMAJ495A 495U SMAJ495CA 495D 522 578 1.0 495 1.0 760 0.5 988.0 2.6
Notes: 1. Suffix ‘A’ denotes a 5 % tolerance unidirectional device. 3. For bidirectional devices with a VR of 10 volts or less, the IR limit is double.
2. Suffix ‘CA’ denotes a 5 % tolerance bidirectional device.
BOURNS DO-21 2.70 j (0.105) .7 4" 2.10 -— (0.003) 1.27 (0.050) aw MA (Do-214A 3.99 . 4 50 (0.157 . 0177) 7 2.54 . 2 79 (0100 . 0.110) 1.25 . 1 05 (0.049 . 0 065) 0. 5 . 0 31 (0.005 . 0 012) 4.03 , 5.28 (0.194 . 0 208) 0 203 (0 000) 1.93 2.29 (0.070 . 0 090) 0.76 , 1.52 (0.030 . 0 060) vaw xx
Product Dimensions
Specifications are subject to change without notice.
Users should verify actual device performance in their specific applications.
The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf.
SMAJ Transient Voltage Suppressor Diode Series
Recommended Footprint
Physical Specifications
Case ...........................................Molded plastic per UL Class 94V-0
Polarity....................... Cathode band indicates unidirectional device
No cathode band indicates bidirectional device
Weight ...........................................................................0.064 grams
A
A
C
C
F
E
B
B
D
MM
(INCHES)
DIMENSIONS:
DIMENSIONS: MM
(INCHES)
Dimension SMA (DO-214AC)
A (Max.) 2.70
(0.106)
B (Min.) 2.10
(0.083)
C (Min.) 1.27
(0.050)
A
C
B
G
F D
C
B
MM
(INCHES)
DIMENSIONS:
H
E
A
Dimension SMA (DO-214AC)
A3.99 - 4.50
(0.157 - 0.177)
B2.54 - 2.79
(0.100 - 0.110)
C1.25 - 1.65
(0.049 - 0.065)
D0.15 - 0.31
(0.006 - 0.012)
E 4.93 - 5.28
(0.194 - 0.208)
F 0.203 MAX.
(0.008)
G 1.98 - 2.29
(0.078 - 0.090)
H 0.76 - 1.52
(0.030 - 0.060)
Typical Part Marking
YWW
XXXX
DATE CODE:
Y = LAST
DIGIT OF
YEAR
WW = WEEK
NUMBER
MANUFACTURER’S
TRADEMARK
DEVICE ID
BOURNS mun Wavmym as named by R E A Pulse wmm 1T , \s named as ma , wnemmapeak , decays m 50 "/a m x mm wa , TA=25°G {damn , “:25 "c Nonrrepalmve Pmse Wavemvm Raswstwe m m Pulse Wavemvm 43mph uve Lnan
100
75
50
25
0
050
25 75 100 150125 175 200
Ambient Temperature (
Peak Pulse Derating in Percent of
Peak Power or Current
°C)
10 x 1000 Waveform as Defined
by R.E.A.
1.0
0.6
0.8
0.4
0.2
0.0
05025 75 100 150125 175 200
TL, Lead Temperature (°C)
RM(AV) Steady State Power Dissipation (W)
60 Hz Resistive or
Inductive Load
Capacitance (pF)
Peak Forward Surge Current (Amps)
60
40
50
30
20
10
0
12510 20 50 100
Number of Cycles at 60 Hz
Pulse Width 8.3 ms
Single Half Sine-Wave
100
50
0
0 1.0 2.0 3.0 4.0
T, Time (ms)
IP, Peak Pulse Current (%)
TA=25 °C
TP
TR=10 µs
Half value= IRSM
2
Peak value (IRSM)
Pulse width (TP)
is defined as that point
where the peak current
decays to 50 % of IPSM.
10 x 1000 waveform
as defined by R.E.A.
10000
100
0
010 100 1000
Standoff Voltage (Volts)
1000
Bidirectional
TA = 25 °C
Unidirectional
10
1.0
0.1
0.1 µs 1.0 µs 10 µs 10 ms
Td, Pulse Width (Seconds)
PPPM - Peak Pulse Power (kW)
100 µs 1.0 ms
TA = 25 °C
Non-repetitive
Pulse Waveform
Shown in Pulse Waveform Graph
100
75
50
25
0
05025 75 100 150125 175 200
Ambient Temperature (
Peak Pulse Derating in Percent of
Peak Power or Current
°C)
10 x 1000 Waveform as Defined
by R.E.A.
1.0
0.6
0.8
0.4
0.2
0.0
05025 75 100 150125 175 200
TL, Lead Temperature (°C)
RM(AV) Steady State Power Dissipation (W)
60 Hz Resistive or
Inductive Load
Capacitance (pF)
Peak Forward Surge Current (Amps)
60
40
50
30
20
10
0
12510 20 50 100
Number of Cycles at 60 Hz
Pulse Width 8.3 ms
Single Half Sine-Wave
100
50
0
0 1.0 2.0 3.0 4.0
T, Time (ms)
IP, Peak Pulse Current (%)
TA=25 °C
TP
TR=10 µs
Half value= IRSM
2
Peak value (IRSM)
Pulse width (TP)
is defined as that point
where the peak current
decays to 50 % of IPSM.
10 x 1000 waveform
as defined by R.E.A.
10000
100
0
010 100 1000
Standoff Voltage (Volts)
1000
Bidirectional
TA = 25 °C
Unidirectional
10
1.0
0.1
0.1 µs 1.0 µs 10 µs 10 ms
Td, Pulse Width (Seconds)
PPPM - Peak Pulse Power (kW)
100 µs 1.0 ms
TA = 25 °C
Non-repetitive
Pulse Waveform
Shown in Pulse Waveform Graph
100
75
50
25
0
05025 75 100 150125 175 200
Ambient Temperature (
Peak Pulse Derating in Percent of
Peak Power or Current
°C)
10 x 1000 Waveform as Defined
by R.E.A.
1.0
0.6
0.8
0.4
0.2
0.0
05025 75 100 150125 175 200
TL, Lead Temperature (°C)
RM(AV) Steady State Power Dissipation (W)
60 Hz Resistive or
Inductive Load
Capacitance (pF)
Peak Forward Surge Current (Amps)
60
40
50
30
20
10
0
12510 20 50 100
Number of Cycles at 60 Hz
Pulse Width 8.3 ms
Single Half Sine-Wave
100
50
0
0 1.0 2.0 3.0 4.0
T, Time (ms)
IP, Peak Pulse Current (%)
TA=25 °C
TP
TR=10 µs
Half value= IRSM
2
Peak value (IRSM)
Pulse width (TP)
is defined as that point
where the peak current
decays to 50 % of IPSM.
10 x 1000 waveform
as defined by R.E.A.
10000
100
0
010 100 1000
Standoff Voltage (Volts)
1000
Bidirectional
TA = 25 °C
Unidirectional
10
1.0
0.1
0.1 µs 1.0 µs 10 µs 10 ms
Td, Pulse Width (Seconds)
PPPM - Peak Pulse Power (kW)
100 µs 1.0 ms
TA = 25 °C
Non-repetitive
Pulse Waveform
Shown in Pulse Waveform Graph
100
75
50
25
0
05025 75 100 150125 175 200
Ambient Temperature (
Peak Pulse Derating in Percent of
Peak Power or Current
°C)
10 x 1000 Waveform as Defined
by R.E.A.
1.0
0.6
0.8
0.4
0.2
0.0
05025 75 100 150125 175 200
TL, Lead Temperature (°C)
RM(AV) Steady State Power Dissipation (W)
60 Hz Resistive or
Inductive Load
Capacitance (pF)
Peak Forward Surge Current (Amps)
60
40
50
30
20
10
0
12510 20 50 100
Number of Cycles at 60 Hz
Pulse Width 8.3 ms
Single Half Sine-Wave
100
50
0
0 1.0 2.0 3.0 4.0
T, Time (ms)
IP, Peak Pulse Current (%)
TA=25 °C
TP
TR=10 µs
Half value= IRSM
2
Peak value (IRSM)
Pulse width (TP)
is defined as that point
where the peak current
decays to 50 % of IPSM.
10 x 1000 waveform
as defined by R.E.A.
10000
100
0
010 100 1000
Standoff Voltage (Volts)
1000
Bidirectional
TA = 25 °C
Unidirectional
10
1.0
0.1
0.1 µs 1.0 µs 10 µs 10 ms
Td, Pulse Width (Seconds)
PPPM - Peak Pulse Power (kW)
100 µs 1.0 ms
TA = 25 °C
Non-repetitive
Pulse Waveform
Shown in Pulse Waveform Graph
100
75
50
25
0
05025 75 100 150125 175 200
Ambient Temperature (
Peak Pulse Derating in Percent of
Peak Power or Current
°C)
10 x 1000 Waveform as Defined
by R.E.A.
1.0
0.6
0.8
0.4
0.2
0.0
050
25 75 100 150125 175 200
TL, Lead Temperature (°C)
RM(AV) Steady State Power Dissipation (W)
60 Hz Resistive or
Inductive Load
Capacitance (pF)
Peak Forward Surge Current (Amps)
60
40
50
30
20
10
0
12510 20 50 100
Number of Cycles at 60 Hz
Pulse Width 8.3 ms
Single Half Sine-Wave
100
50
0
0 1.0 2.0 3.0 4.0
T, Time (ms)
IP, Peak Pulse Current (%)
TA=25 °C
TP
TR=10 µs
Half value= IRSM
2
Peak value (IRSM)
Pulse width (TP)
is defined as that point
where the peak current
decays to 50 % of IPSM.
10 x 1000 waveform
as defined by R.E.A.
10000
100
0
010 100 1000
Standoff Voltage (Volts)
1000
Bidirectional
TA = 25 °C
Unidirectional
10
1.0
0.1
0.1 µs 1.0 µs 10 µs 10 ms
Td, Pulse Width (Seconds)
PPPM - Peak Pulse Power (kW)
100 µs 1.0 ms
TA = 25 °C
Non-repetitive
Pulse Waveform
Shown in Pulse Waveform Graph
Specifications are subject to change without notice.
Users should verify actual device performance in their specific applications.
The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf.
SMAJ Transient Voltage Suppressor Diode Series
Rating & Characteristic Curves
Pulse Derating Curve Maximum Non-Repetitive Surge Current
Pulse Waveform Typical Junction Capacitance
Pulse Rating Curve Steady State Power Derating Curve
100
75
50
25
0
05025 75 100 150125 175 200
Ambient Temperature (
Peak Pulse Derating in Percent of
Peak Power or Current
°C)
10 x 1000 Waveform as Defined
by R.E.A.
1.0
0.6
0.8
0.4
0.2
0.0
05025 75 100 150125 175 200
TL, Lead Temperature (°C)
RM(AV) Steady State Power Dissipation (W)
60 Hz Resistive or
Inductive Load
Capacitance (pF)
Peak Forward Surge Current (Amps)
60
40
50
30
20
10
0
12510 20 50 100
Number of Cycles at 60 Hz
Pulse Width 8.3 ms
Single Half Sine-Wave
100
50
0
0 1.0 2.0 3.0 4.0
T, Time (ms)
IP, Peak Pulse Current (%)
TA=25 °C
TP
TR=10 µs
Half value= IRSM
2
Peak value (IRSM)
Pulse width (TP)
is defined as that point
where the peak current
decays to 50 % of IPSM.
10 x 1000 waveform
as defined by R.E.A.
10000
100
0
010 100 1000
Standoff Voltage (Volts)
1000
Bidirectional
TA = 25 °C
Unidirectional
10
1.0
0.1
0.1 µs 1.0 µs 10 µs 10 ms
Td, Pulse Width (Seconds)
PPPM - Peak Pulse Power (kW)
100 µs 1.0 ms
TA = 25 °C
Non-repetitive
Pulse Waveform
Shown in Pulse Waveform Graph
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CDDFN5-0504N - TVS/Steering Diode Array
Packaging Information
The product will be dispensed in tape and reel format (see diagram below).
Devices are packed in accordance with EIA 481
standard specifications shown here.
DIMENSIONS: MM
(INCHES)
REV. 08/20
Specifications are subject to change without notice.
Users should verify actual device performance in their specific applications.
The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf.
SMAJ Transient Voltage Suppressor Diode Series
Item Symbol SMA (DO-214AC)
7 Inch Reel 13 Inch Reel
Carrier Width A 2.90 ± 0.20
(0.114 ± 0.008)
Carrier Length B 5.50 ± 0.20
(0.217 ± 0.008)
Carrier Depth C 2.26 ± 0.20
(0.089 ± 0.008)
Sprocket Hole d 1.50 ± 0.10
(0.061 ± 0.004)
Reel Outside Diameter D 178
(7.008)
330
(12.992)
Reel Inner Diameter D1 50.0
(1.969) MIN.
Feed Hole Diameter D2 13.0 ± 0.20
(0.512 ± 0.008)
Sprocket Hole Position E 1.75 ± 0.10
(0.069 ± 0.004)
Punch Hole Position F 5.50 ± 0.05
(0.217 ± 0.002)
Punch Hole Pitch P 4.00 ± 0.10
(0.157 ± 0.004)
Sprocket Hole Pitch P0 4.00 ± 0.10
(0.157 ± 0.004)
Embossment Center P1 2.00 ± 0.05
(0.079 ± 0.002)
Overall Tape Thickness T0.30 ± 0.10
(0.012 ± 0.004)
Tape Width W 12.00 ± 0.30
(0.472 ± 0.012)
Reel Width W118.4
(0.724) MAX.
Quantity per Reel -- 1,000 5,000
.......
.......
....... ..............
....... ..............
P A
F
ET
120 °
D2
DD
1
W1
C
Index Hole
P
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BOURNS'
Legal Disclaimer Notice
This legal disclaimer applies to purchasers and users of Bourns® products manufactured by or on behalf of Bourns, Inc. and its
affiliates (collectively, “Bourns”).
Unless otherwise expressly indicated in writing, Bourns® products and data sheets relating thereto are subject to change
without notice. Users should check for and obtain the latest relevant information and verify that such information is current and
complete before placing orders for Bourns® products.
The characteristics and parameters of a Bourns® product set forth in its data sheet are based on laboratory conditions, and
statements regarding the suitability of products for certain types of applications are based on Bourns’ knowledge of typical
requirements in generic applications. The characteristics and parameters of a Bourns® product in a user application may vary
from the data sheet characteristics and parameters due to (i) the combination of the Bourns® product with other components
in the user’s application, or (ii) the environment of the user application itself. The characteristics and parameters of a Bourns®
product also can and do vary in different applications and actual performance may vary over time. Users should always verify
the actual performance of the Bourns® product in their specific devices and applications, and make their own independent
judgments regarding the amount of additional test margin to design into their device or application to compensate for
differences between laboratory and real world conditions.
Unless Bourns has explicitly designated an individual Bourns® product as meeting the requirements of a particular industry
standard (e.g., ISO/TS 16949) or a particular qualification (e.g., UL listed or recognized), Bourns is not responsible for any
failure of an individual Bourns® product to meet the requirements of such industry standard or particular qualification. Users of
Bourns® products are responsible for ensuring compliance with safety-related requirements and standards applicable to their
devices or applications.
Bourns® products are not recommended, authorized or intended for use in nuclear, lifesaving, life-critical or life-sustaining ap-
plications, nor in any other applications where failure or malfunction may result in personal injury, death, or severe property or
environmental damage. Unless expressly and specifically approved in writing by two authorized Bourns representatives on a
case-by-case basis, use of any Bourns® products in such unauthorized applications might not be safe and thus is at the user’s
sole risk. Life-critical applications include devices identified by the U.S. Food and Drug Administration as Class III devices and
generally equivalent classifications outside of the United States.
Bourns expressly identifies those Bourns® standard products that are suitable for use in automotive applications on such
products’ data sheets in the section entitled “Applications.” Unless expressly and specifically approved in writing by two
authorized Bourns representatives on a case-by-case basis, use of any other Bourns® standard products in an automotive
application might not be safe and thus is not recommended, authorized or intended and is at the user’s sole risk. If Bourns
expressly identifies a sub-category of automotive application in the data sheet for its standard products (such as infotainment
or lighting), such identification means that Bourns has reviewed its standard product and has determined that if such Bourns®
standard product is considered for potential use in automotive applications, it should only be used in such sub-category of
automotive applications. Any reference to Bourns® standard product in the data sheet as compliant with the AEC-Q standard
or “automotive grade” does not by itself mean that Bourns has approved such product for use in an automotive application.
Bourns® standard products are not tested to comply with United States Federal Aviation Administration standards generally
or any other generally equivalent governmental organization standard applicable to products designed or manufactured for
use in aircraft or space applications. Bourns expressly identifies Bourns® standard products that are suitable for use in aircraft
or space applications on such products’ data sheets in the section entitled “Applications.” Unless expressly and specifically
approved in writing by two authorized Bourns representatives on a case-by-case basis, use of any other Bourns® standard
product in an aircraft or space application might not be safe and thus is not recommended, authorized or intended and is at the
user’s sole risk.
The use and level of testing applicable to Bourns® custom products shall be negotiated on a case-by-case basis by Bourns and
the user for which such Bourns® custom products are specially designed. Absent a written agreement between Bourns and the
user regarding the use and level of such testing, the above provisions applicable to Bourns® standard products shall also apply
to such Bourns® custom products.
Users shall not sell, transfer, export or re-export any Bourns® products or technology for use in activities which involve the
design, development, production, use or stockpiling of nuclear, chemical or biological weapons or missiles, nor shall they use
Bourns® products or technology in any facility which engages in activities relating to such devices. The foregoing restrictions
apply to all uses and applications that violate national or international prohibitions, including embargos or international
regulations. Further, Bourns® products and Bourns technology and technical data may not under any circumstance be
exported or re-exported to countries subject to international sanctions or embargoes. Bourns® products may not, without prior
authorization from Bourns and/or the U.S. Government, be resold, transferred, or re-exported to any party not eligible
to receive U.S. commodities, software, and technical data.
To the maximum extent permitted by applicable law, Bourns disclaims (i) any and all liability for special, punitive, consequential,
incidental or indirect damages or lost revenues or lost profits, and (ii) any and all implied warranties, including implied warranties
of fitness for particular purpose, non-infringement and merchantability.
For your convenience, copies of this Legal Disclaimer Notice with German, Spanish, Japanese, Traditional Chinese and Simplified Chinese
bilingual versions are available at:
Web Page: http://www.bourns.com/legal/disclaimers-terms-and-policies
PDF: http://www.bourns.com/docs/Legal/disclaimer.pdf
C1753 05/17/18R

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