P6KE6.8CA [ONSEMI]
600 Watt Peak Power Surmetic−40 Zener Transient Voltage Suppressors; 600瓦峰值功率Surmetic - 40齐纳瞬态电压抑制器型号: | P6KE6.8CA |
厂家: | ONSEMI |
描述: | 600 Watt Peak Power Surmetic−40 Zener Transient Voltage Suppressors |
文件: | 总7页 (文件大小:204K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
P6KE6.8CA Series
600 Watt Peak Power
Surmetict−40 Zener
Transient Voltage
Suppressors
http://onsemi.com
Bidirectional*
The P6KE6.8CA series is designed to protect voltage sensitive
components from high voltage, high energy transients. They have
excellent clamping capability, high surge capability, low zener
impedance and fast response time. These devices are
ON Semiconductor’s exclusive, cost-effective, highly reliable
Surmetic axial leaded package and is ideally-suited for use in
communication systems, numerical controls, process controls,
medical equipment, business machines, power supplies and many
other industrial/consumer applications.
Specification Features:
• Working Peak Reverse Voltage Range − 5.8 to 171 V
• Peak Power − 600 Watts @ 1 ms
• ESD Rating of class 3 (>16 KV) per Human Body Model
• Maximum Clamp Voltage @ Peak Pulse Current
• Low Leakage < 5 mA above 10 V
AXIAL LEAD
CASE 17
PLASTIC
• Maximum Temperature Coefficient Specified
• UL 497B for Isolated Loop Circuit Protection
• Response Time is Typically < 1 ns
L
P6KE
xxxCA
YYWW
Mechanical Characteristics:
CASE: Void-free, Transfer-molded, Thermosetting plastic
FINISH: All external surfaces are corrosion resistant and leads are
readily solderable
MAXIMUM LEAD TEMPERATURE FOR SOLDERING PURPOSES:
230°C, 1/16” from the case for 10 seconds
POLARITY: Cathode band does not imply polarity
MOUNTING POSITION: Any
L = Assembly Location
P6KExxxCA = ON Device Code
YY = Year
WW = Work Week
ORDERING INFORMATION
MAXIMUM RATINGS
Device
Package
Axial Lead
Axial Lead
Shipping
Rating
Symbol
Value
Unit
P6KExxxCA
1000 Units/Box
Peak Power Dissipation (Note 1.)
P
PK
600
Watts
P6KExxxCARL*
4000/Tape & Reel
@ T ≤ 25°C
L
Steady State Power Dissipation
P
D
5
Watts
*P6KE170CA Not Available in 4000/Tape & Reel
@ T ≤ 75°C, Lead Length = 3/8″
L
Derated above T = 75°C
50
20
mW/°C
°C/W
L
Thermal Resistance,
R
q
JL
Junction−to−Lead
Operating and Storage
Temperature Range
T , T
− 55 to +175
°C
J
stg
1. Nonrepetitive current pulse per Figure 3 and derated above T = 25°C
A
per Figure 2.
*Please see P6KE6.8A − P6KE200A for Unidirectional devices.
© Semiconductor Components Industries, LLC, 2006
1
Publication Order Number:
August, 2006 − Rev. 4
P6KE6.8CA/D
P6KE6.8CA Series
ELECTRICAL CHARACTERISTICS
(T = 25°C unless otherwise noted)
A
I
I
PP
Symbol
Parameter
I
Maximum Reverse Peak Pulse Current
PP
I
T
I
V V
R
BR RWM
V
Clamping Voltage @ I
V
C
C
PP
V
I
R
T
V
V
V
V
RWM
Working Peak Reverse Voltage
RWM BR C
I
I
R
Maximum Reverse Leakage Current @ V
RWM
V
BR
Breakdown Voltage @ I
T
I
PP
I
T
Test Current
Bi−Directional TVS
QV
Maximum Temperature Variation of V
BR
BR
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2
P6KE6.8CA Series
ELECTRICAL CHARACTERISTICS (T = 25°C unless otherwise noted.)
A
Breakdown Voltage
V
C
@ I (Note 3)
PP
V
RWM
V
BR
(Note 2) (Volts)
@ I
V
C
I
PP
(Note 1)
I
R
@ V
QV
BR
T
RWM
Device
(Volts)
(mA)
Min
Nom
Max
(mA)
(Volts)
(A)
(%/°C)
Marking
Device
P6KE6.8CA
P6KE7.5CA
P6KE8.2CA
P6KE9.1CA
P6KE6.8CA
P6KE7.5CA
P6KE8.2CA
P6KE9.1CA
5.8
6.4
7.02
7.78
1000
500
200
50
6.45
7.13
7.79
8.65
6.80
7.51
8.2
7.14
7.88
8.61
9.55
10
10
10
1
10.5
11.3
12.1
13.4
57
53
50
45
0.057
0.061
0.065
0.068
9.1
P6KE10CA
P6KE11CA
P6KE12CA
P6KE13CA
P6KE10CA
P6KE11CA
P6KE12CA
P6KE13CA
8.55
9.4
10.2
11.1
10
5
5
9.5
10
11.05
12
10.5
11.6
12.6
13.7
1
1
1
1
14.5
15.6
16.7
18.2
41
38
36
33
0.073
0.075
0.078
0.081
10.5
11.4
12.4
5
13.05
P6KE15CA
P6KE16CA
P6KE18CA
P6KE20CA
P6KE15CA
P6KE16CA
P6KE18CA
P6KE20CA
12.8
13.6
15.3
17.1
5
5
5
5
14.3
15.2
17.1
19
15.05
16
18
15.8
16.8
18.9
21
1
1
1
1
21.2
22.5
25.2
27.7
28
27
24
22
0.084
0.086
0.088
0.09
20
P6KE22CA
P6KE24CA
P6KE27CA
P6KE30CA
P6KE22CA
P6KE24CA
P6KE27CA
P6KE30CA
18.8
20.5
23.1
25.6
5
5
5
5
20.9
22.8
25.7
28.5
22
24
27.05
30
23.1
25.2
28.4
31.5
1
1
1
1
30.6
33.2
37.5
41.4
20
18
16
0.092
0.094
0.096
0.097
14.4
P6KE33CA
P6KE36CA
P6KE39CA
P6KE43CA
P6KE33CA
P6KE36CA
P6KE39CA
P6KE43CA
28.2
30.8
33.3
36.8
5
5
5
5
31.4
34.2
37.1
40.9
33.05
36
39.05
43.05
34.7
37.8
41
1
1
1
1
45.7
49.9
53.9
59.3
13.2
12
11.2
10.1
0.098
0.099
0.1
45.2
0.101
P6KE47CA
P6KE51CA
P6KE56CA
P6KE62CA
P6KE47CA
P6KE51CA
P6KE56CA
P6KE62CA
40.2
43.6
47.8
53
5
5
5
5
44.7
48.5
53.2
58.9
47.05
51.05
56
49.4
53.6
58.8
65.1
1
1
1
1
64.8
70.1
77
9.3
8.6
7.8
7.1
0.101
0.102
0.103
0.104
62
85
P6KE68CA
P6KE75CA
P6KE82CA
P6KE91CA
P6KE68CA
P6KE75CA
P6KE82CA
P6KE91CA
58.1
64.1
70.1
77.8
5
5
5
5
64.6
71.3
77.9
86.5
68
75.05
82
71.4
78.8
86.1
95.5
1
1
1
1
92
6.5
5.8
5.3
4.8
0.104
0.105
0.105
0.106
103
113
125
91
P6KE100CA
P6KE110CA
P6KE120CA
P6KE130CA
P6KE100CA
P6KE110CA
P6KE120CA
P6KE130CA
85.5
94
102
111
5
5
5
5
95
100
110.5
120
105
116
126
137
1
1
1
1
137
152
165
179
4.4
4
3.6
3.3
0.106
0.107
0.107
0.107
105
114
124
130.5
P6KE150CA
P6KE160CA
P6KE170CA*
P6KE180CA
P6KE200CA
P6KE150CA
P6KE160CA
P6KE170CA*
P6KE180CA
P6KE200CA
128
136
145
154
171
5
5
5
5
5
143
152
162
171
190
150.5
160
170.5
180
158
168
179
189
210
1
1
1
1
1
207
219
234
246
274
2.9
2.7
2.6
2.4
2.2
0.108
0.108
0.108
0.108
0.108
200
1. A transient suppressor is normally selected according to the maximum working peak reverse voltage (V
greater than the dc or continuous peak operating voltage level.
), which should be equal to or
RWM
2.
V
measured at pulse test current I at an ambient temperature of 25°C.
BR T
3. Surge current waveform per Figure 3 and derate per Figures 1 and 2.
*Not Available in the 4,000/Tape & Reel.
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3
P6KE6.8CA Series
100
10
°
NONREPETITIVE
PULSE WAVEFORM
SHOWN IN FIGURE 3
100
80
60
1
40
20
0
0.1
0.1 ms
0
25
50
75 100 125 150 175 200
T , AMBIENT TEMPERATURE (°C)
1 ms
10 ms
100 ms
1 ms
10 ms
A
t , PULSE WIDTH
P
Figure 1. Pulse Rating Curve
Figure 2. Pulse Derating Curve
PULSE WIDTH (t ) IS
p
DEFINED AS THAT
POINT WHERE THE
PEAK CURRENT
t ≤ 10 ms
r
PEAK VALUE − I
PP
100
50
0
DECAYS TO 50% OF I
.
PP
I
PP
HALF VALUE −
2
t
P
0
1
2
3
4
t, TIME (ms)
Figure 3. Pulse Waveform
1
0.7
0.5
3/8,
0.3
0.2
3/8,
5
PULSE WIDTH
10 ms
4
3
0.1
0.07
0.05
1 ms
0.03
0.02
2
100 ms
1
0
10 ms
10
D, DUTY CYCLE (%)
0.01
0.1 0.2
0.5
1
2
5
20
50 100
0
25
50
75 100 125 150 175 200
T , LEAD TEMPERATURE (°C)
L
Figure 4. Steady State Power Derating
Figure 5. Typical Derating Factor for Duty Cycle
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4
P6KE6.8CA Series
APPLICATION NOTES
RESPONSE TIME
minimum lead lengths and placing the suppressor device as
close as possible to the equipment or components to be
protected will minimize this overshoot.
In most applications, the transient suppressor device is
placed in parallel with the equipment or component to be
protected. In this situation, there is a time delay associated
with the capacitance of the device and an overshoot
condition associated with the inductance of the device and
the inductance of the connection method. The capacitance
effect is of minor importance in the parallel protection
scheme because it only produces a time delay in the
transition from the operating voltage to the clamp voltage as
shown in Figure 6.
The inductive effects in the device are due to actual
turn-on time (time required for the device to go from zero
current to full current) and lead inductance. This inductive
effect produces an overshoot in the voltage across the
equipment or component being protected as shown in
Figure 7. Minimizing this overshoot is very important in the
application, since the main purpose for adding a transient
suppressor is to clamp voltage spikes. The P6KE6.8A series
has very good response time, typically < 1 ns and negligible
inductance. However, external inductive effects could
produce unacceptable overshoot. Proper circuit layout,
Some input impedance represented by Z is essential to
in
prevent overstress of the protection device. This impedance
should be as high as possible, without restricting the circuit
operation.
DUTY CYCLE DERATING
The data of Figure 1 applies for non-repetitive conditions
and at a lead temperature of 25°C. If the duty cycle increases,
the peak power must be reduced as indicated by the curves
of Figure 5. Average power must be derated as the lead or
ambient temperature rises above 25°C. The average power
derating curve normally given on data sheets may be
normalized and used for this purpose.
At first glance the derating curves of Figure 5 appear to be
in error as the 10 ms pulse has a higher derating factor than
the 10 ms pulse. However, when the derating factor for a
given pulse of Figure 5 is multiplied by the peak power value
of Figure 1 for the same pulse, the results follow the
expected trend.
TYPICAL PROTECTION CIRCUIT
Z
in
LOAD
V
in
V
L
V
in
(TRANSIENT)
OVERSHOOT DUE TO
INDUCTIVE EFFECTS
V
V
V
in
(TRANSIENT)
V
L
V
L
V
in
t
d
t
D
= TIME DELAY DUE TO CAPACITIVE EFFECT
t
t
Figure 6.
Figure 7.
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5
P6KE6.8CA Series
UL RECOGNITION*
The entire series including the bidirectional CA suffix has
Breakdown test, Endurance Conditioning, Temperature test,
Dielectric Voltage-Withstand test, Discharge test and
several more.
Whereas, some competitors have only passed a
flammability test for the package material, we have been
recognized for much more to be included in their protector
Underwriters Laboratory Recognition for the classification
of protectors (QVGV2) under the UL standard for safety
497B and File #E 116110. Many competitors only have one
or two devices recognized or have recognition in a
non-protective category. Some competitors have no
recognition at all. With the UL497B recognition, our parts
successfully passed several tests including Strike Voltage
category.
*Applies to P6KE6.8A, CA − P6KE200A, CA.
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6
P6KE6.8CA Series
OUTLINE DIMENSIONS
Transient Voltage Suppressors − Axial Leaded
600 Watt Peak Power Surmetict−40
SURMETIC 40
CASE 17−02
ISSUE C
NOTES:
1. CONTROLLING DIMENSION: INCH
2. LEAD FINISH AND DIAMETER UNCONTROLLED IN DIM F.
3. FOR BIDIRECTIONAL DIODE, CATHODE BAND DOES NOT
IMPLY POLARITY
B
INCHES
DIM MIN MAX
MILLIMETERS
MIN
8.38
3.30
0.94
−−−
MAX
8.89
3.68
1.09
1.27
31.75
D
A
B
D
K
F
0.330
0.130
0.037
−−−
0.350
0.145
0.043
0.050
1.250
K
A
F
1.000
25.40
F
K
SURMETIC is a trademark of Semiconductor Components Industries, LLC.
ON Semiconductor and
are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice
to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.
“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All
operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights
nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications
intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should
Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates,
and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death
associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal
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PUBLICATION ORDERING INFORMATION
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P6KE6.8CA/D
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