VA10LC18A500DL_技术文档

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 (blue sections, pages

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 (blue section, page 9)

®

3-8 & 14,16 & 22) for the correct electrical ratings.

for the correct electrical ratings.

V C 1206 05 D 150 R P

V A 1000 05 D 150 R L

TERMINATION FINISH:

X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated)

LEAD FINISH:

Copper clad steel, solder coated

PACKAGING (Pcs/Reel):

STYLE

“D”

“R”

“T”

STYLE

“D”

“R”

“T”

VA1000 1,000

VA2000 1,000

3,000

2,500

7,500

5,000

VC0402

VC0603 1,000

VC0805 1,000

VC1206 1,000

VC1210 1,000

N/A

4,000

2,000

10,000

*

CLAMPING VOLTAGE:

Where: 100 = 10.0V

150 = 15.5V

580 = 58.0V

650 = 65.0V

101 = 100.0V

121 = 120.0V

*

300 = 30.0V

400 = 40.0V

CLAMPING VOLTAGE:

Where: 100 = 10.0V 500 = 50.0V

150 = 15.5V 560 = 56.0V

200 = 20.0V 580 = 58.0V

250 = 25.0V 620 = 62.0V

300 = 30.0V 650 = 65.0V

390 = 39.0V 101 = 100.0V

400 = 40.0V 121 = 120.0V

ENERGY:

Where: A = 0.1J

D = 0.4J

K = 2.0J

WORKING VOLTAGE:

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 H = 1.2J

C = 0.3J J = 1.5J

D = 0.4J P = 3.0J

F = 0.7J V = 0.02J

G = 0.9J X = 0.05J

CASE SIZE DESIGNATOR:

SIZE

LENGTH

DIAMETER

1000 4.32mm (0.170") 2.54mm (0.100")

2000 4.83mm (0.190") 3.56mm (0.140")

WORKING VOLTAGE:

Where: 03 = 3.3 VDC 18 = 18.0 VDC

05 = 5.6 VDC 26 = 26.0 VDC

09 = 9.0 VDC 30 = 30.0 VDC

12 = 12.0 VDC 48 = 48.0 VDC

14 = 14.0 VDC 60 = 60.0 VDC

CASE STYLE:

A = Axial

PRODUCT DESIGNATOR:

V = Varistor

CASE SIZE DESIGNATOR:

MARKING:

®

SIZE

LENGTH

WIDTH

All axial TransGuards are marked with vendor identification, product

identification, voltage/energy rating code and date code (see example below):

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")

AVX

TVS

05D

025

CASE STYLE:

C = Chip

Where: AVX = Always AVX (Vendor Identification)

TVS = Always TVS (Product Identification

- Transient Voltage Suppressor)

PRODUCT DESIGNATOR:

V = Varistor

05D = Working VDC and Energy Rating (Joules)

Where: 05 = 5.6 VDC, D = 0.4J

Contact Factory for Availability

*

025 = Three Digit Date Code

Where: 0 = Last digit of year (2000)

25 = Week of year

MARKING:

®

All standard surface mount TransGuard chips will not be marked. Marked

chips will be considered a special; contact factory for minimum order

requirement and price adder.

2

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

VOLTAGES = 5.6, 9, 14 OR 18 VDC

0402 SURFACE MOUNT

Dimensions:

Actual Size:

Length

1.0 0.10mm (0.040" 0.004")

0.5 0.10mm (0.020" 0.004")

0.6mm Max. (0.024")

Width

Thickness

Termination Band Width

Termination Separation

Termination Finish

0.25 0.15mm (0.010" 0.006")

0.3mm Min. (0.012")

X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated) - Contact Factory for Availability

AVX

Part Number

Working Breakdown Clamping

Peak

Current

Transient

Energy

Voltage

Capacitance

Inductance

Symbol

V_WM

V_B

V_C

I_peak

E_trans

C

L

Volts

(max.)

Volts

(max.)

Amp

(max.)

Joules

(max.)

pF

(typ.)

nH

(typ.)

Units

0.5Vrms @:

1MHz

360

Test Condition

<50µA

1mA DC

8/20µS†

8/20µs 10/1000µS

di/dt = 100mA/nS

VC040205X150_ _

VC040209X200_ _

VC040214X300_ _

VC040218X400_ _

5.6

9.0

14.0

18.0

7.6 - 9.3

11.0 -14.0

16.5 -20.3

22.9 - 28.0

15.5

20.0

30.0

40.0

20

0.05

<1.0

230

120

90

Termination Finish: X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated) Contact Factory for Availability

Packaging (Pcs/Reel): see page 2

StaticGuard

AVX

Part Number

Working Breakdown Clamping

Peak

Current

Transient

Energy

Voltage

Capacitance

Inductance

Symbol

V_WM

V_B

V_C

I_peak

E_trans

C

L

Volts

(max.)

Volts

(max.)

Amp

(max.)

Joules

(max.)

pF

(typ.)

nH

(typ.)

Units

0.5Vrms @:

1 MHz

40

di/dt =

100mA/ns

<1.0

<10µA

<1µA DC

N/A

8/20µS†

8/20µs 10/1000µS

Test Condition

VC04LC18V500 _ _ ≤18.0

<50.0

15 0.02

Termination Finish: X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated) Contact Factory for Availability

Packaging (Pcs/Reel): see page 2

Note: Details of Performance Curves shown on page 4.

V_WM—Maximum steady-state DC operating voltage the varistor can maintain and not exceed 50µA leakage current

V_B—Voltage across the device measured at 1mA DC current

V_C—Maximum peak voltage across the varistor measured at a specified pulse current and waveform

†Transient Energy Rating

<0.05 Joule

Pulse Current & Waveform

1A 8/20µS

I_peak—Maximum peak current which may be applied with the specified waveform without device failure

E_tran—Maximum energy which may be dissipated with the specified waveform without device failure

C—Device capacitance measured with zero volt bias 0.5Vrms and 1MHz

L—Device inductance measured with a current edge rate of 100 mA/nS

Dimensions: Millimeters (Inches)

3

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

10

100

IMPULSE DURATION (µS)

1000

0.01

0.1

1

10

Frequency (GHz)

4

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

VOLTAGES = 3.3, 5.6, 9, 14, 18, 26 OR 30 VDC

0603 SURFACE MOUNT

Dimensions:

Actual Size:

Length

1.6 0.15mm (0.063" 0.006")

0.80 0.15mm (0.032" 0.006")

0.9mm Max. (0.035")

Width

Thickness

Termination Band Width

Termination Separation

Termination Finish

0.35 0.15mm (0.014" 0.006")

0.7mm Min. (0.028")

X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated)

AVX

Part Number

Working Breakdown Clamping

Peak

Current

Transient

Energy

Voltage

Capacitance

Inductance

Symbol

V_WM

V_B

V_C

I_peak

E_trans

C

L

Volts

(max.)

Volts

(max.)

Amp

(max.)

Joules

(max.)

pF

(typ.)

nH

(typ.)

Units

0.5Vrms @:

1kHz 1 MHz

1800 1230

Test Condition

<50µA

1mA DC

8/20µS†

8/20µs

10/1000µS

di/dt = 100mA/nS

VC060303A100 _ _

VC060305A150 _ _

VC060309A200 _ _

VC060314A300 _ _

VC060318A400 _ _

VC060326A580 _ _

3.3#

5.6

4.1 - 6.0

7.6 - 9.3

10

30

0.1

<1.0

15.5

20

1000

650

500

275

200

825

550

424

225

160

9.0

11.0 - 14.0

16.5 - 20.3

22.9 - 28.0

31.0 - 38.0

14.0

18.0

26.0

30

40

58

VC060330A650 _ _

VC06LC18X500 _ _

30.0

37.0 - 46.0

65

30

0.1

175

150

<1.0

See pages 14-15 for specification and performance details.

Termination Finish: X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated)

Packaging: (Pcs/Reel) see page 2

V_WM—Maximum steady-state DC operating voltage the varistor can maintain and not exceed 50µA leakage current

V_B—Voltage across the device measured at 1mA DC current

V_C—Maximum peak voltage across the varistor measured at a specified pulse current and waveform

†Transient Energy Rating

0.1 Joule

Pulse Current & Waveform

2A 8/20µS

I_peak—Maximum peak current which may be applied with the specified waveform without device failure

E_tran—Maximum energy which may be dissipated with the specified waveform without device failure

C—Device capacitance measured with zero volt bias 0.5Vrms and 1kHz

L—Device inductance measured with a current edge rate of 100 mA/nS

Dimensions: Millimeters (Inches)

#Test condition <100µA

5

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

VOLTAGES = 3.3, 5.6, 9, 12, 14, 18, 26 OR 30 VDC

0805 SURFACE MOUNT

Dimensions:

Actual Size:

Length

Width

Thickness

2.01 0.2mm (0.079" 0.008")

1.25 0.2mm (0.049" 0.008")

1.02mm Max. (0.040")

Land Length

Termination Finish

0.71mm Max. (0.028")

X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated)

AVX

Part Number

Working Breakdown Clamping

Peak

Current

Transient

Energy

Voltage

Capacitance

Inductance

Symbol

V_WM

V_B

V_C

I_peak

E_trans

C

L

Volts

(max.)

Volts

(max.)

Amp

(max.)

Joules

(max.)

pF

(typ.)

nH

(typ.)

Units

0.5Vrms @:

Test Condition

<50µA

1mA DC

8/20µS†

8/20µs

10/1000µS

di/dt = 100mA/nS

1kHz 1 MHz

VC080503A100 _ _

VC080503C100 _ _

3.3#

4.1 - 6.0

3.7 - 5.6

10

40

120

0.1

0.3

1300

5500 4000

1250 860

3500 2400

930

<1.5

1.5

VC080505A150 _ _

VC080505C150 _ _

5.6

7.6 - 9.3

7.1 - 8.7

15.5

40

120

0.1

0.3

<1.5

1.5

VC080509A200 _ _

VC080512A250 _ _

9

11.0 - 14.0

14.0 - 18.3

20

25

40

0.1

780

525

585

400

<1.5

12

VC080514A300 _ _

VC080514C300 _ _

14

16.5 - 20.3

15.9 - 19.4

30

40

120

0.1

0.3

375

1100

280

820

<1.5

1.5

VC080518A400 _ _

VC080518C400 _ _

18*

22.9 - 28.0

22.5 - 27.5

40

30

100

0.1

0.3

350

650

275

500

<1.5

1.5

VC080526A580 _ _

VC080526C580 _ _

26

31.0 - 37.9

30.5 - 37.3

58

30

100

0.1

0.3

140

250

110

190

<1.5

1.5

VC080530A650 _ _

VC08LC18A500 _ _

30

37.0 - 46.0

65

30

0.1

100

80

<1.5

See pages 14-15 for specification and performance details.

Termination Finish: X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated)

Packaging (Pcs/Reel): see page 2

V_WM—Maximum steady-state DC operating voltage the varistor can maintain and not exceed 50µA leakage current

V_B—Voltage across the device measured at 1mA DC current

V_C—Maximum peak voltage across the varistor measured at a specified pulse current and waveform

†Transient Energy Rating

0.1 Joule

Pulse Current & Waveform

2A 8/20µS

0.2 - 0.3 Joules

5A 8/20µS

I_peak—Maximum peak current which may be applied with the specified waveform without device failure

E_tran—Maximum energy which may be dissipated with the specified waveform without device failure

C—Device capacitance measured with zero volt bias 0.5Vrms and 1kHz

L—Device inductance measured with a current edge rate of 100 mA/nS

*Withstands 24.5 VDC for 5 minutes (automotive applications)

Dimensions: Millimeters (Inches)

#Test condition <100µA

6

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

VOLTAGES = 3.3, 5.6, 14, 18, 26, 30 OR 48 VDC

1206 SURFACE MOUNT

Dimensions:

Actual Size:

Length

Width

Thickness

3.20 0.2mm (0.126" 0.008")

1.60 0.2mm (0.063" 0.008")

1.02mm Max. (0.040")

Land Length

Termination Finish

0.71mm Max. (0.028")

X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated) - Contact Factory for Availability

AVX

Part Number

Working Breakdown Clamping

Peak

Current

Transient

Energy Capacitance

Voltage

Inductance

Symbol

V_WM

V_B

V_C

I_peak

E_trans

C

L

Volts

(max.)

Volts

(max.)

Amp

(max.)

Joules

(max.)

pF

(typ.)

nH

(typ.)

Units

0.5Vrms @:

Test Condition

<50µA

1mA DC

8/20µS†

8/20µs 10/1000µS

di/dt = 100mA/nS

1kHz 1 MHz

VC120603A100 _ _

VC120603D100 _ _

3.3#

4.1 - 6.0

3.7 - 5.6

10

40

150

0.1

0.4

2000 1500

4700 3800

<1.7

1.7

VC120605A150 _ _

VC120605D150 _ _

5.6

7.6 - 9.3

7.1 - 8.7

15.5

40

150

0.1

0.4

1200

3000 2300

870

<1.7

1.7

VC120614A300 _ _

VC120614D300 _ _

14

16.5 -20.3

15.9 -19.4

30

40

150

0.1

0.4

600

1200

500

900

<1.7

1.7

VC120618A400 _ _

VC120618D400 _ _

18*

22.9 -28.0

22.5 -27.5

40

30

150

0.1

0.4

350

800

270

635

<1.7

1.7

VC120626D580 _ _

VC120630D650 _ _

VC120648D101 _ _

26

30

48

30.5 -37.3

36.0 -45.0

56.0 -68.0

58

65

120

100

0.4

550

500

225

450

400

185

1.7

100

VC12LC18A500 _ _ See pages 14-15 for specification and performance details.

Termination Finish: X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated) Contact Factory for Availability

Packaging (Pcs/Reel): see page 2

V_WM—Maximum steady-state DC operating voltage the varistor can maintain and not exceed 50µA leakage current

V_B—Voltage across the device measured at 1mA DC current

V_C—Maximum peak voltage across the varistor measured at a specified pulse current and waveform

†Transient Energy Rating

0.1 Joule

Pulse Current & Waveform

2A 8/20µS

≥0.4 Joules

10A 8/20µS

I_peak—Maximum peak current which may be applied with the specified waveform without excessive leakage

E_tran—Maximum energy which may be dissipated with the specified waveform without device failure

C—Device capacitance measured with zero volt bias 0.5Vrms and 1kHz

L—Device inductance measured with a current edge rate of 100 mA/nS

*Withstands 24.5 VDC for 5 minutes (automotive applications)

Dimensions: Millimeters (Inches)

#Test condition <100µA

7

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

VOLTAGES = 18, 26, 30, 48 OR 60 VDC

1210 SURFACE MOUNT

Dimensions:

Actual Size:

Length

Width

Thickness

3.20 0.2mm (0.126" 0.008")

2.49 0.2mm (0.098" 0.008")

1.70mm Max. (0.067")

Land Length

Termination Finish

0.71mm Max. (0.028")

X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated) - Contact Factory for Availability

AVX

Part Number

Working Breakdown Clamping

Peak

Current

Transient

Energy Capacitance

Voltage

Inductance

Symbol

V_WM

V_B

V_C

I_peak

E_trans

C

L

Volts

(max.)

Volts

(max.)

Amp

(max.)

Joules

(max.)

pF

(typ.)

nH

(typ.)

Units

0.5Vrms @:

1kHz 1 MHz

3100 2400

Test Condition

<50µA

1mA DC

8/20µS†

8/20µs 10/1000µS

di/dt = 100mA/nS

VC121018J390 _ _

VC121026H560 _ _

18*

26

21.5 - 26.5

29.7 - 36.3

39

56

500

300

1.5

1.2

2.0

2150 1675

VC121030G620 _ _

VC121030H620 _ _

30

35.0 - 43.0

62

220

280

0.9

1.2

1900 1530

1975 1575

2.0

VC121048G101 _ _

VC121048H101 _ _

48

54.5 - 66.5

100

220

250

0.9

1.2

500

525

430

450

2.0

VC121060J121 _ _

60

67.0 - 83.0

120

250

1.5

450

375

2.0

Termination Finish: X = Pt/Pd/Ag (Non-Plated)

P = Ni/Sn Alloy (Plated) Contact Factory for Availability

Packaging (Pcs/Reel): see page 2

V_WM—Maximum steady-state DC operating voltage the varistor can maintain and not exceed 50µA leakage current

V_B—Voltage across the device measured at 1mA DC current

V_C—Maximum peak voltage across the varistor measured at a specified pulse current and waveform

†Transient Energy Rating

Pulse Current & Waveform

10A 8/20µS

≥0.4 Joules

I_peak—Maximum peak current which may be applied with the specified waveform without device failure

E_tran—Maximum energy which may be dissipated with the specified waveform without device failure

C—Device capacitance measured with zero volt bias 0.5Vrms and 1kHz

L—Device inductance measured with a current edge rate of 100 mA/nS

*Withstands 24.5 VDC for 5 minutes (automotive applications)

Dimensions: Millimeters (Inches)

8

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

VOLTAGES = 3.3, 5.6, 14, 18, 26, 30, 48, 60 VDC

AXIAL LEADED

Dimensions:

VA1000

VA2000

Body Length

Body Diameter

Lead Diameter

Lead Length

Lead Finish

(L) = 4.32mm Max. (0.170")

(D) = 2.54mm Max. (0.100")

= 0.51 .05mm (0.020 0.002)

= 25.4mm Min. (1")

4.83mm Max. (0.190")

3.56mm Max. (0.140")

0.51 .05mm (0.020 0.002)

25.4mm Min. (1")

Copper Clad Steel, Solder Coated

AVX

Part Number

Working Breakdown Clamping

Peak

Current

Transient

Energy Capacitance

Voltage

Inductance

Symbol

Units

V_WM

V_B

V_C

I_peak

E_trans

C

L

Volts

(max.)

Volts

(max.)

Amp

(max.)

Joules

(max.)

pF

(typ.)

nH

(typ.)

0.5Vrms @:

Test Condition

<50µA

1mA DC

8/20µS†

8/20µs 10/1000µS

di/dt = 100mA/nS

1kHz 1 MHz

L

VA100003A100 _

VA100003D100 _

3.3#

4.1 - 6.0

3.7 - 5.6

10

40

150

0.1

0.4

1500 1100

4700 3800

3.5

L

VA100005A150 _

VA100005D150 _

5.6

7.6 - 9.3

7.1 - 8.7

15.5

40

150

0.1

0.4

1000

2800 2150

750

3.5

L

VA100014A300 _

VA100014D300 _

14

16.5 - 20.3

15.9 - 19.4

30

40

150

0.1

0.4

400

1200

300

900

3.5

L

VA100018A400 _

VA100018D400 _

18

22.9 - 28.0

22.5 - 27.5

40

150

0.1

0.4

350

900

270

700

3.5

L

VA100026D580 _

VA100030D650 _

VA100048D101 _

VA200060K121 _

26

30

48

60

30.5 - 37.3

36.0 - 45.0

56.0 - 68.0

67.0 - 83.0

58

65

120

100

300

0.4

2.0

700

600

200

400

550

500

165

340

3.5

100

120

L

VA10LC18A500 _

See pages 14-15 for specification and performance details.

Lead Finish: L = Copper Clad Steel, Solder Coated

Packaging (Pcs/Reel): see page 2

V_WM—Maximum steady-state DC operating voltage the varistor can maintain and not exceed 50µA leakage current

V_B—Voltage across the device measured at 1mA DC current

V_C—Maximum peak voltage across the varistor measured at a specified pulse current and waveform

†Transient Energy Rating

0.1 Joule

Pulse Current & Waveform

2A 8/20µS

≥0.4 Joules

10A 8/20µS

I_peak—Maximum peak current which may be applied with the specified waveform without device failure

E_tran—Maximum energy which may be dissipated with the specified waveform without device failure

C—Device capacitance measured with zero volt bias 0.5Vrms and 1kHz

L—Device inductance measured with a current edge rate of 100 mA/nS

Dimensions: Millimeters (Inches)

#Test condition <100µA

9

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

50

5

0

40

30

20

10

0

-9

-6

-3

+0

+3

10

Current (A)

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

Current (A)

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

Current (A)

10

26V, >0.1J

150

100

50

18V, 0.1J

18V, >0.1J

26V, 0.1J

0

10

-9

-6

-3

+0

+3

10

30V, 0.1J

10

Current (A)

10

48V

30V, >0.1J

60V

10

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

TYPICAL PERFORMANCE CURVES (0603, 0805, 1206 & 1210 CHIP SIZES)

3.3V

11

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

-9

-8

10

-7

10

-6

-5

10

-4

10

-3

10

-2

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)

V_C

5.6V

V_B

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

(

)

V_C

V_B

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

(

)

V_C

V_B

Temperature (°C)

50

40

30

26V

(

-55

-40

-20

0

20

40

60

80

100

120

140

150

Temperature (°C)

12

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- 150Amp 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

TransGuard 1210 1.5J Product

10%

Repetitive Peak Current Strikes

TransGuard 1206 0.4J Product

10%

VC120618D400

8%

6%

VC120626D580

VC120614D300

6%

4%

2%

0%

VC121018J390

4%

2%

0%

VC120605D150

0

100

200

300

400

500

600

0

100

200

300

400

500

600

Number of Strikes

Figure 1

Figure 3

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

100

200

300

400

500

600

0

100

200

300

400

500

600

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

80

60

40

20

0

100

80

60

40

VC080505C150

60

VC120614D300

40

20

VC060305A150

VC080518C400

VC080514A300

VC120648D101

VC06LC18X500

0

VC12LC18A500

VC060326A580

0

20

40

60

80

100

0

20

40

Frequency (MHz)

60

80

100

0

20

40

60

80

100

Frequency (MHz)

13


型号：	VA10LC18A500DL
厂家：	KYOCERA AVX
描述：	Axial Multilayer Varistor
文件：	总12页 (文件大小：166K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

VA10LC18A500DL [KYOCERA AVX]

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