VC120603A100 [KYOCERA AVX]
AVX Multilayer Ceramic Transient Voltage Suppressors; AVX多层陶瓷瞬态电压抑制器型号: | VC120603A100 |
厂家: | KYOCERA AVX |
描述: | AVX Multilayer Ceramic Transient Voltage Suppressors |
文件: | 总10页 (文件大小:502K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
TransGuard®
AVX Multilayer Ceramic Transient Voltage Suppressors
GENERAL DESCRIPTION
The AVX TransGuard® Transient Voltage Suppressors (TVS)
with unique high-energy multilayer construction represents
state-of-the-art overvoltage circuit protection. Monolithic
multilayer construction provides protection from voltage
transients caused by ESD, lightning, NEMP, inductive switch-
ing, etc. True surface mount product is provided in EIA
industry standard packages. Thru-hole components are
supplied as conformally coated axial devices.
®
TRANSGUARD DESCRIPTION
TransGuard® products are zinc oxide (ZnO) based ceramic
semiconductor devices with non-linear voltage-current charac-
teristics (bi-directional) similar to back-to-back zener diodes.
They have the added advantage of greater current and energy
handling capabilities as well as EMI/RFI attenuation. Devices
are fabricated by a ceramic sintering process that yields a
structure of conductive ZnO grains surrounded by electrically
insulating barriers, creating varistor-like behavior.
The number of grain-boundary interfaces between conduct-
ing electrodes determines “Breakdown Voltage” of the
device. High voltage applications such as AC line protection
require many grains between electrodes while low voltage
requires few grains to establish the appropriate breakdown
voltage. Single layer ceramic disc processing proved to be a
viable production method for thick cross section devices
with many grains, but attempts to address low voltage
suppression needs by processing single layer ceramic disc
formulations with huge grain sites has had limited success.
AVX, the world leader in the manufacture of multilayer
ceramic capacitors, now offers the low voltage transient
protection marketplace a true multilayer, monolithic surface
mount varistor. Technology leadership in processing
thin dielectric materials and patented processes for
precise ceramic grain growth have yielded superior energy
dissipation in the smallest size. Now a varistor has voltage
characteristics determined by design and not just cell sorting
whatever falls out of the process.
Multilayer ceramic varistors are manufactured by mixing
ceramic powder in an organic binder (slurry) and casting it
into thin layers of precision thickness. Metal electrodes are
deposited onto the green ceramic layers which are then
stacked to form a laminated structure. The metal electrodes
are arranged so that their terminations alternate from one
end of the varistor to the other. The device becomes a
monolithic block during the sintering (firing) cycle providing
uniform energy dissipation in a small volume.
1
TransGuard®
AVX Multilayer Ceramic Transient Voltage Suppressors
PART NUMBER IDENTIFICATION
Surface Mount Devices
Axial Leaded Devices
Important: For part number identification only, not for
construction of part numbers.
Important: For part number identification only, not for
construction of part numbers.
The information below only defines the numerical value of part number
digits, and cannot be used to construct a desired set of electrical limits.
Please refer to the TransGuard® part number data for the correct electri-
cal ratings.
The information below only defines the numerical value of part number
digits, and cannot be used to construct a desired set of electrical limits.
Please refer to the TransGuard® part number data for the correct electri-
cal ratings.
V C 1206 05 D 150 R P
V A 1000 05 D 150 R L
TERMINATION FINISH:
P = Ni/Sn Alloy (Plated)
LEAD FINISH:
Copper clad steel, solder coated
PACKAGING (Pcs/Reel):
PACKAGING (Pcs/Reel):
STYLE
“D”
“R”
“T”
STYLE
“D”
“R”
“T”
“W”
VA1000 1,000
VA2000 1,000
3,000
2,500
7,500
5,000
VC0402 N/A
N/A
N/A 10,000
VC0603 1,000 4,000 10,000 N/A
VC0805 1,000 4,000 10,000 N/A
VC1206 1,000 4,000 10,000 N/A
VC1210 1,000 2,000 10,000 N/A
CLAMPING VOLTAGE:
Where: 100 = 12V
150 = 18V
580 = 60V
650 = 67V
101 = 100V
121 = 120V
300 = 32V
400 = 42V
CLAMPING VOLTAGE:
Where: 100 = 12V
150 = 18V
500 = 50V
560 = 60V
580 = 60V
620 = 67V
650 = 67V
101 = 100V
121 = 120V
ENERGY:
Where: A = 0.1J
D = 0.4J
200 = 22V
250 = 27V
300 = 32V
390 = 42V
K = 2.0J
WORKING VOLTAGE:
400 = 42V
Where: 03 = 3.3 VDC 26 = 26.0 VDC
05 = 5.6 VDC 30 = 30.0 VDC
14 = 14.0 VDC 48 = 48.0 VDC
18 = 18.0 VDC 60 = 60.0 VDC
ENERGY:
Where: A = 0.1J
B = 0.2J
J = 1.5J
K = 0.6J
L = 0.8J
M = 1.0J
N = 1.1J
P = 3.0J
Q = 1.3J
R = 1.7J
S = 1.9-2.0J
T = 0.01J
U = 4.0-5.0J
V = 0.02J
W = 6.0J
X = 0.05J
Y = 12.0J
Z = 25.0J
C = 0.3J
D = 0.4J
E = 0.5J
F = 0.7J
G = 0.9J
H = 1.2J
CASE SIZE DESIGNATOR:
SIZE
LENGTH
DIAMETER
1000 4.32mm (0.170") 2.54mm (0.100")
2000 4.83mm (0.190") 3.56mm (0.140")
CASE STYLE:
A = Axial
WORKING VOLTAGE:
Where:
03 = 3.3 VDC
05 = 5.6 VDC
09 = 9.0 VDC
12 = 12.0 VDC
14 = 14.0 VDC
18 = 18.0 VDC
PRODUCT DESIGNATOR:
26 = 26.0 VDC
30 = 30.0 VDC
48 = 48.0 VDC
60 = 60.0 VDC
85 = 85.0 VDC
V = Varistor
MARKING:
All axial TransGuards® are marked with vendor identification, product
identification, voltage/energy rating code and date code (see example below):
CASE SIZE DESIGNATOR:
AVX
TVS
05D
825
SIZE
LENGTH
WIDTH
0402 1.00 0.10mm (0.040" 0.004") 0.5 0.10mm (0.020" 0.004")
0603 1.60 0.15mm (0.063" 0.006") 0.8 0.15mm (0.032" 0.006")
0805 2.01 0.2mm (0.079" 0.008") 1.25 0.2mm (0.049" 0.008")
1206 3.20 0.2mm (0.126" 0.008") 1.60 0.2mm (0.063" 0.008")
1210 3.20 0.2mm (0.126" 0.008") 2.49 0.2mm (0.098" 0.008")
Where: AVX = Always AVX (Vendor Identification)
TVS = Always TVS (Product Identification
- Transient Voltage Suppressor)
CASE STYLE:
05D = Working VDC and Energy Rating (Joules)
Where: 05 = 5.6 VDC, D = 0.4J
C = Chip
725 = Three Digit Date Code
PRODUCT DESIGNATOR:
Where: 8 = Last digit of year (2008)
25 = Week of year
V = Varistor
MARKING:
Not RoHS Compliant
All standard surface mount TransGuard® chips will not be marked.
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
2
TransGuard®
AVX Multilayer Ceramic Transient Voltage Suppressors
ELECTRICAL CHARACTERISTICS
AVX PN
VW (DC) VW (AC)
VB
VC
12
12
12
12
12
12
12
18
18
18
18
18
18
18
18
22
22
22
27
32
32
32
32
32
32
32
32
40
40
42
42
42
42
42
42
42
42
38
42
45
42
42
44
60
60
60
IVC
1
IL
100
100
100
100
100
100
100
35
35
35
35
35
35
35
35
25
25
25
25
15
15
15
15
15
15
15
15
25
10
10
10
10
10
10
10
10
10
15
10
25
10
10
10
10
10
10
ET
0.1
0.1
0.3
0.1
0.4
0.1
0.4
0.05
0.1
0.1
0.3
0.1
0.4
0.1
0.4
0.05
0.1
0.1
0.1
0.05
0.1
0.1
0.3
0.1
0.4
0.1
0.4
1.6
1.6
2.9
7.2
0.05
0.1
0.1
0.3
0.1
0.4
0.5
1.6
1.5
0.1
0.4
1.7
0.1
0.1
0.3
IP
30
Cap
1450
1400
5000
1250
4700
1500
4700
175
Freq
K
K
K
K
K
K
K
M
K
K
K
K
K
K
K
M
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
M
K
K
K
K
K
K
K
K
K
K
K
K
K
K
Case
0603
0805
0805
1206
1206
1000
1000
0402
0603
0805
0805
1206
1206
1000
1000
0402
0603
0805
0805
0402
0603
0805
0805
1206
1206
1000
1000
1210
1210
1812
2220
0402
0603
0805
0805
1206
1206
1206
1210
1210
1000
1000
1210
0603
0805
0805
VC060303A100
VC080503A100
VC080503C100
VC120603A100
VC120603D100
VA100003A100
VA100003D100
VC040205X150
VC060305A150
VC080505A150
VC080505C150
VC120605A150
VC120605D150
VA100005A150
VA100005D150
VC040209X200
VC060309A200
VC080509A200
VC080512A250
VC040214X300
VC060314A300
VC080514A300
VC080514C300
VC120614A300
VC120614D300
VA100014A300
VA100014D300
VC13MA0160KBA
VC121016J390
VC181216P400
VC222016Y400
VC040218X400
VC060318A400
VC080518A400
VC080518C400
VC120618A400
VC120618D400
VC120618E380
VC121018J390
VJ13MC0180KBA
VA100018A400
VA100018D400
VC121022R440
VC060326A580
VC080526A580
VC080526C580
3.3
3.3
2.3
2.3
5.0 20ꢀ
5.0 20ꢀ
5.0 20ꢀ
5.0 20ꢀ
5.0 20ꢀ
5.0 20ꢀ
5.0 20ꢀ
8.5 20ꢀ
8.5 20ꢀ
8.5 20ꢀ
8.5 20ꢀ
8.5 20ꢀ
8.5 20ꢀ
8.5 20ꢀ
8.5 20ꢀ
12.7 15ꢀ
12.7 15ꢀ
12.7 15ꢀ
16 15ꢀ
1
40
3.3
2.3
1
120
40
3.3
2.3
1
3.3
2.3
1
150
40
3.3
2.3
1
3.3
2.3
1
150
20
5.6
4.0
1
5.6
4.0
1
30
750
5.6
4.0
1
40
1100
3000
1200
3000
1000
2800
175
5.6
4.0
1
120
40
5.6
4.0
1
5.6
4.0
1
150
40
5.6
4.0
1
5.6
4.0
1
150
20
9.0
6.4
1
9.0
6.4
1
30
550
9.0
6.4
1
40
750
12.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
16.0
16.0
16.0
16
8.5
1
40
525
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
14.0
13.0
11.0
11
18.5 12ꢀ
18.5 12ꢀ
18.5 12ꢀ
18.5 12ꢀ
18.5 12ꢀ
18.5 12ꢀ
18.5 12ꢀ
18.5 12ꢀ
24.5 10ꢀ
25.5 10ꢀ
24.5 10ꢀ
24.5 10ꢀ
25.5 10ꢀ
25.5 10ꢀ
25.5 10ꢀ
25.5 10ꢀ
25.5 10ꢀ
25.5 10ꢀ
25.5 10ꢀ
25.5 10ꢀ
24.0 10ꢀ
25.5 10ꢀ
25.5 10ꢀ
27 10ꢀ
1
20
85
1
30
350
1
40
325
1
120
40
900
1
600
1
150
40
1050
325
1
1
150
400
500
1000
1500
20
1100
1800
3100
5000
13000
65
2.5
2.5
5
10
1
18.0
18.0
18.0
18.0
18.0
18.0
18.0
18.0
18.0
18.0
18.0
22.0
26.0
26.0
26.0
13.0
13.0
13.0
13.0
13.0
13.0
13.0
13.0
13.0
13.0
13.0
17.0
18.0
18.0
18.0
1
30
150
1
30
225
1
100
30
550
1
350
1
150
200
500
500
40
900
1
930
5
3100
3000
350
10
1
1
150
400
30
900
2.5
1
1600
155
34.5 10ꢀ
34.5 10ꢀ
34.5 10ꢀ
1
30
120
1
100
250
3
TransGuard®
AVX Multilayer Ceramic Transient Voltage Suppressors
ELECTRICAL CHARACTERISTICS
AVX PN
VW (DC) VW (AC)
VB
VC
60
IVC
1
IL
ET
IP
120
200
300
300
800
120
30
Cap
500
600
2150
1120
3000
650
125
90
Freq
K
K
K
K
K
K
K
M
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
Case
1206
1206
1210
1210
1812
1000
0603
0805
0805
1206
1210
1210
1210
1210
1210
1000
0805
1206
0805
1206
1210
1812
2220
1206
1206
1812
1206
1210
1210
1210
1210
1000
1206
1812
1210
1210
2000
1206
1206
1210
1210
VC120626D580
VC120626F540
VC121026H560
VJ13MC0260KBA
VC181226P540
VA100026D580
VC060330A650
VC080530A650
VC080530C650
VC120630D650
VC121030G620
VC121030H620
VC121030S620
VJ13MC0300KBA
VJ13PC0300KBA
VA100030D650
VC080531C650
VC120631M650
VC080538C770
VC120638N770
VC121038S770
VC181238U770
VC222038Y770
VC120642L800
VC120645K900
VC181245U900
VC120648D101
VC121048G101
VC121048H101
VJ13MC0480KBA
VJ13PC0480KBA
VA100048D101
VC120656F111
VC181256U111
VC121060J121
VJ13MC06000KBA
VA200060K121
VC120665L131
VC120665M131
VC121065P131
VC121085S151
26.0
26.0
26.0
26.0
26.0
26.0
30.0
30.0
30.0
30.0
30.0
30.0
30.0
30.0
30.0
30.0
31.0
31.0
38.0
38.0
38.0
38.0
38.0
42.0
45.0
45.0
48.0
48.0
48.0
48.0
48.0
48.0
56.0
56.0
60.0
60.0
60.0
65.0
65.0
65.0
85.0
18.0
20.0
18.0
18.0
20.0
18.0
21.0
21.0
21.0
21.0
21.0
21.0
21.0
21.0
21.0
21.0
25.0
25.0
30.0
30.0
30.0
30.0
30.0
32.0
35.0
35.0
34.0
34.0
34.0
34.0
34.0
34.0
40.0
40.0
42.0
42.0
42.0
50.0
50.0
50.0
60.0
34.5 10ꢀ
33.0 10ꢀ
34.5 10ꢀ
33.0 10ꢀ
33.0 10ꢀ
34.5 10ꢀ
41.0 10ꢀ
41.0 10ꢀ
41.0 10ꢀ
41.0 10ꢀ
41.0 10ꢀ
41.0 10ꢀ
41.0 10ꢀ
39.0 10ꢀ
39.0 10ꢀ
41.0 10ꢀ
39.0 10ꢀ
39.0 10ꢀ
47.0 10ꢀ
47.0 10ꢀ
47.0 10ꢀ
47.0 10ꢀ
47.0 10ꢀ
51.0 10ꢀ
56.0 10ꢀ
56.0 10ꢀ
62.0 10ꢀ
62.0 10ꢀ
62.0 10ꢀ
60.0 10ꢀ
60.0 10ꢀ
62.0 10ꢀ
68.0 10ꢀ
68.0 10ꢀ
76.0 10ꢀ
75.0 10ꢀ
76.0 10ꢀ
82.0 10ꢀ
82.0 10ꢀ
82 10ꢀ
10
15
10
25
15
10
10
10
10
10
10
10
10
25
25
10
10
15
10
15
15
15
15
15
15
15
10
10
10
25
25
10
15
15
10
25
10
15
15
15
35
0.4
0.7
1.2
1.2
3.0
0.4
0.1
0.1
0.3
0.4
0.9
1.2
1.9
0.9
1.2
0.4
0.3
1.0
0.3
1.1
2.0
4.2
12
54
1
60
5
62
10
5
54
60
1
67
1
67
1
30
67
1
80
250
400
1750
1850
1500
1020
1150
550
250
500
200
400
1000
1300
4200
600
260
1200
225
450
500
800
840
200
180
800
400
600
400
250
250
600
275
67
1
120
220
280
300
220
280
120
80
67
5
67
5
67
5
73
10
10
1
73
67
65
1
65
1
200
80
77
1
77
1
200
400
800
2000
180
200
500
100
220
250
220
250
100
100
500
250
250
300
100
150
350
250
77
2.5
5
77
77
10
1
80
0.8
0.6
4.0
0.4
0.9
1.2
0.9
1.2
0.4
0.7
4.8
1.5
1.5
2.0
0.8
1.0
2.7
2.0
90
1
90
5
100
100
100
110
110
100
110
110
120
126
120
135
135
135
150
1
5
5
10
10
1
1
5
5
10
1
1
1
2.5
1
100 10ꢀ
VW (DC)
VW (AC)
VB
DC Working Voltage (V)
AC Working Voltage (V)
Typical Breakdown Voltage (V @ 1mADC
VB Tolerance is from Typical Value
Clamping Voltage (V @ IVC
Test Current for VC (A, 8x20μS)
Maximum Leakage Current at the
Working Voltage (μA)
ET
IP
Cap
Transient Energy Rating (J, 10x1000μS)
Peak Current Rating (A, 8x20μS)
Typical Capacitance (pF) @ frequency specified
and 0.5 VRMS
Frequency at which capacitance is measured
(K = 1kHz, M = 1MHz)
)
V
B Tol
VC
IVC
)
Freq
IL
4
Dimensions
Dimensions: Millimeters
(Inches)
0.51 0.05
(0.020" 0.002")
D
Max.
L
Max.
25.4 (1.0")
Min. Lead Length
DIMENSIONS: mm (inches)
AVX Style
VA1000
VA2000
mm
4.32
(0.170)
4.83
(0.190)
(L) Max Length
(in.)
mm
(D) Max Diameter
(in.)
2.54
(0.100)
3.56
(0.140)
Lead Finish: Copper Clad Steel, Solder Coated
W
L
᭢
T
᭢
t
DIMENSIONS: mm (inches)
AVX Style
(L) Length
0402
0603
0805
1206
3.20 0.20
(0.126 0.008) (0.126 0.008)
1210
1812
2220
mm
1.00 0.10
(in.) (0.040 0.004) (0.063 0.006)
1.60 0.15
2.01 0.20
(0.079 0.008)
3.20 0.20
4.50 0.30
(0.177 0.012) (0.224 0.016)
5.70 0.40
mm 0.50 0.10 0.80 0.15
(in.) (0.020 0.004) (0.031 0.006)
1.25 0.20
(0.049 0.008)
1.60 0.20 2.49 0.20
(0.063 0.008) (0.098 0.008)
3.20 0.30 5.00 0.40
(0.126 0.012) (0.197 0.016)
(W) Width
mm
(in.)
0.6
(0.024)
0.9
(0.035)
1.02
(0.040)
1.02
(0.040)
1.70
(0.067)
2.00
(0.080)
2.00
(0.080)
(T) Max Thickness
(t) Land Length
mm
0.25 0.15
0.35 0.15
0.71 max.
(0.028 max.)
0.94 max.
(0.037 max.)
1.14 max.
(0.045 max.)
1.00 max.
(0.039 max.)
1.00 max.
(0.039 max.)
(in.) (0.010 0.006) (0.014 0.006)
5
TransGuard®
AVX Multilayer Ceramic Transient Voltage Suppressors
TYPICAL PERFORMANCE CURVES (0402 CHIP SIZE)
VOLTAGE/CURRENT CHARACTERISTICS PULSE DEGRADATION
Multilayer construction and improved grain structure result in
excellent transient clamping characteristics up to 20 amps
peak current, while maintaining very low leakage currents
under DC operating conditions. The VI curves below show the
voltage/current characteristics for the 5.6V, 9V, 14V, 18V and
low capacitance StaticGuard parts with currents ranging from
parts of a micro amp to tens of amps.
Traditionally varistors have suffered degradation of electrical
performance with repeated high current pulses resulting in
decreased breakdown voltage and increased leakage cur-
rent. It has been suggested that irregular intergranular
boundaries and bulk material result in restricted current
paths and other non-Schottky barrier paralleled conduction
paths in the ceramic. Repeated pulsing of TransGuard® tran-
sient voltage suppressors with 150Amp peak 8 x 20μS
waveforms shows negligible degradation in breakdown
voltage and minimal increases in leakage current. This
does not mean that TransGuard® suppressors do not suffer
degradation, but it occurs at much higher current.
100
VC04LC18V500
VC040218X400
VC040214X300
VC040209X200
VC040205X150
80
60
40
ESD TEST OF 0402 PARTS
35
VC04LC18V500
30
20
0
25
VC040218X400
10-9
10-7
10-5
10-3
10-1
10
103
105
Current (A)
20
VC040214X300
15
VC040209X200
PEAK POWER VS PULSE DURATION
10
1300
VC040205X150
1200
1100
5
10
100
1000
10000
8kV ESD STRIKES
VC040218X400
VC040214X300
1000
VC040209X200
INSERTION LOSS CHARACTERISTICS
900
VC04LC18V500
0
VC040205X150
800
700
600
500
400
300
200
100
0
-5
-10
VC04LC18V
VC040218X
-15
VC040214X
VC040209X
VC040205X
-20
-25
0.01
0.1
1
10
10
100
IMPULSE DURATION (μS)
1000
Frequency (GHz)
6
TransGuard®
AVX Multilayer Ceramic Transient Voltage Suppressors
TYPICAL PERFORMANCE CURVES (0603, 0805, 1206 & 1210 CHIP SIZES)
VOLTAGE/CURRENT CHARACTERISTICS
Multilayer construction and improved grain structure result in excellent transient clamping characteristics up to 500 amps peak
current, depending on case size and energy rating, while maintaining very low leakage currents under DC operating condi-
tions. The VI curve below shows the voltage/current characteristics for the 3.3V, 5.6V, 12V, 14V, 18V, 26V, 30V, 48V and
60VDC parts with currents ranging from parts of a micro amp to tens of amps.
VI Curves - 3.3V and 5.6V Products
25
20
15
10
VI Curves - 9V, 12V, and 14V Products
5
50
0
40
30
20
10
0
-9
-6
-3
+0
+3
10
10
10
Current (A)
10
10
5.6V, >0.1J
3.3V, 0.1J
3.3V, >0.1J
5.6V, 0.1J
VI Curves - 18V and 26V Products
100
-9
-6
-3
+0
+3
10
10
10
Current (A)
10
10
9V, 0.1J
12V, 0.1J
14V, 0.1J
14V, >0.1J
80
60
40
20
0
VI Curves - 30V, 48V, and 60V Products
200
-9
-6
-3
+0
+3
10
10
10
Current (A)
10
10
26V, >0.1J
150
100
50
18V, 0.1J
18V, >0.1J
26V, 0.1J
VI Curve - 85V Product
200
160
120
0
10
-9
-6
-3
+0
+3
10
10
30V, 0.1J
10
Current (A)
10
48V
30V, >0.1J
60V
80
40
0
1.E-09
1.E-06
1.E-03
1.E+00
1.E+03
Current (A)
7
TransGuard®
AVX Multilayer Ceramic Transient Voltage Suppressors
TYPICAL PERFORMANCE CURVES (0603, 0805, 1206 & 1210 CHIP SIZES)
3.3V
8
TransGuard®
AVX Multilayer Ceramic Transient Voltage Suppressors
TYPICAL PERFORMANCE CURVES (0603, 0805, 1206 & 1210 CHIP SIZES)
TEMPERATURE CHARACTERISTICS
TransGuard® suppressors are designed to operate over the full temperature range from -55°C to +125°C. This operating
temperature range is for both surface mount and axial leaded products.
Temperature Dependence of Voltage
TYPICAL ENERGY DERATING VS TEMPERATURE
100
90
1.25
1
80
70
60
50
40
30
20
0.8
0.6
0.4
10
10
-9
-8
10
-7
10
-6
-5
10
-4
10
-3
10
-2
10
10
Current (A)
-40 C
25 C
85 C
125 C
0.2
0
TYPICAL BREAKDOWN AND CLAMPING VOLTAGES
VS TEMPERATURE - 5.6V
-60 -40 -20
0
20 40 60
80 100 120 140 160
o
20
15
Temperature ( C)
VC
5.6V
VB
10
5
-55
-40
-20
0
20
40
60
80
100
120
140
150
Temperature (oC)
TYPICAL CAPACITANCE VS TEMPERATURE
TYPICAL BREAKDOWN AND CLAMPING VOLTAGES
VS TEMPERATURE - 18V
+25
+20
+15
+10
+5
50
(
)
VC
VB
40
18V
(
)
30
20
0
-55
-40
-20
0
20
40
60
80
100
120
140
150
-5
Temperature (oC)
-10
-15
-20
-25
TYPICAL BREAKDOWN AND CLAMPING VOLTAGES
VS TEMPERATURE - 26V
60
-40
-20
0
20
40
60
80
100
120
140
(
)
VC
VB
Temperature (°C)
50
40
30
26V
(
)
-55
-40
-20
0
20
40
60
80
100
120
140
150
Temperature (∞C)
9
TransGuard®
AVX Multilayer Ceramic Transient Voltage Suppressors
TYPICAL PERFORMANCE CURVES (0603, 0805, 1206 & 1210 CHIP SIZES)
PULSE DEGRADATION
Traditionally varistors have suffered degradation of electrical perfor- 150 Amp peak 8 x 20μS waveforms shows negligible degradation
mance with repeated high current pulses resulting in decreased in breakdown voltage and minimal increases in leakage current.
breakdown voltage and increased leakage current. It has been This does not mean that TransGuard® suppressors do not suffer
suggested that irregular intergranular boundaries and bulk material degradation, but it occurs at much higher current. The plots
result in restricted current paths and other non-Schottky barrier of typical breakdown voltage vs number of 150A pulses are
paralleled conduction paths in the ceramic. Repeated pulsing of shown below.
both 5.6 and 14V TransGuard® transient voltage suppressors with
Repetitive Peak Current Strikes
Repetitive Peak Current Strikes
®
®
TransGuard 1210 1.5J Product
TransGuard 1206 0.4J Product
10%
10%
VC120618D400
8%
8%
VC120626D580
VC120614D300
6%
4%
2%
0%
6%
VC121018J390
4%
2%
0%
VC120605D150
0
100
200
300
400
500
600
0
100
200
300
400
500
600
Number of Strikes
Number of Strikes
Figure 1
Figure 3
Repetitive Peak Current Strikes
Repetitive Peak Current Strikes
StaticGuard 0805 0.1J Product
30%
®
TransGuard 0805 0.1J and 0.3J Products
15%
25%
20%
10%
VC080518A400
15%
10%
VC080518C400
5%
VC08LC18A500
5%
0%
0%
0
100
200
300
400
500
600
0
100
200
300
400
500
600
Number of Strikes
Number of Strikes
Figure 2
Figure 4
CAPACITANCE/FREQUENCY
CHARACTERISTICS
TransGuard® Capacitance vs Frequency 0603
TransGuard® Capacitance vs Frequency 0805
TransGuard® Capacitance vs Frequency 1206
100
100
100
80
80
60
40
80
VC080505C150
60
40
60
VC120614D300
40
20
20
20
VC080518C400
VC060305A150
VC120648D101
VC06LC18X500
0
0
0
VC080514A300
VC12LC18A500
VC060326A580
0
20
40
60
80
100
0
20
40
60
80
100
0
20
40
60
80
100
Frequency (MHz)
Frequency (MHz)
Frequency (MHz)
10
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