VSKT250-04PBF - Vishay Semiconductors

VS-VSK.170PbF, VS-VSK.250PbF Series

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SCR/SCR and SCR/Diode

(MAGN-A-PAK Power Modules), 170 A, 250 A

FEATURES

• High voltage

• Electrically isolated base plate

• 3500 VRMS isolating voltage

• Industrial standard package

• Simplified mechanical designs, rapid assembly

• High surge capability

• Large creepage distances

• UL approved file E78996

• Designed and qualified for industrial level

• Material categorization: for definitions of compliance

please see www.vishay.com/doc?99912

DESCRIPTION

This VSK series of MAGN-A-PAK modules uses high voltage

power thyristor/thyristor and thyristor/diode in seven basic

configurations. The semiconductors are electrically isolated

from the metal base, allowing common heatsinks and

compact assemblies to be built. They can be interconnected

to form single phase or three phase bridges or as

AC-switches when modules are connected in anti-parallel

mode. These modules are intended for general purpose

applications such as battery chargers, welders, motor

drives, UPS, etc.

PRIMARY CHARACTERISTICS

IT(AV) 170 A, 250 A

Type Modules - thyristor, standard

Package MAGN-A-PAK

MAGN-A-PAK

MAJOR RATINGS AND CHARACTERISTICS

SYMBOL CHARACTERISTICS VSK.170.. VSK.250.. UNITS

IT(AV) 85 °C 170 250

IT(RMS) 377 555

ITSM

50 Hz 5100 8500

60 Hz 5350 8900

I2t50 Hz 131 361 kA2s

60 Hz 119 330

I2t 1310 3610 kA2s

VDRM/VRRM 400 to 1600 400 to 2000 V

TJRange -40 to +130 °C

VS-VSK.170PbF, VS-VSK.250PbF Series

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ELECTRICAL SPECIFICATIONS

VOLTAGE RATINGS

TYPE NUMBER VOLTAGE

CODE

VRRM/VDRM, MAXIMUM REPETITIVE

PEAK REVERSE AND OFF-STATE

BLOCKING VOLTAGE

VRSM, MAXIMUM

NON-REPETITIVE PEAK

REVERSE VOLTAGE

IRRM/IDRM

AT 130 °C

MAXIMUM

VS-VSK.170-

04 400 500

08 800 900

10 1000 1100

12 1200 1300

14 1400 1500

16 1600 1700

VS-VSK.250-

04 400 500

08 800 900

10 1000 1100

12 1200 1300

14 1400 1500

16 1600 1700

18 1800 1900 60

20 2000 2100

ON-STATE CONDUCTION

PARAMETER SYMBOL TEST CONDITIONS VSK.170 VSK.250 UNITS

Maximum average on-state current 

at case temperature

IT(AV) 180° conduction, half sine wave 170 250 A

85 85 °C

Maximum RMS on-state current IT(RMS) As AC switch 377 555

Maximum peak, one-cycle on-state

non-repetitive, surge current ITSM

t = 10 ms No voltage

reapplied

Sinusoidal

half wave,

initial TJ = 

TJ maximum

5100 8500

t = 8.3 ms 5350 8900

t = 10 ms 100 % VRRM

reapplied

4300 7150

t = 8.3 ms 4500 7500

Maximum I2t for fusing I2t

t = 10 ms No voltage

reapplied

131 361

kA2s

t = 8.3 ms 119 330

t = 10 ms 100 % VRRM

reapplied

92.5 255

t = 8.3 ms 84.4 233

Maximum I2t for fusing I2t t = 0.1 ms to 10 ms, no voltage reapplied 1310 3610 kA2s

Low level value or threshold voltage VT(TO)1

(16.7 % x  x IT(AV) < I <  x IT(AV)), 

TJ = TJ maximum 0.89 0.97 V

High level value of threshold voltage VT(TO)2 (I >  x IT(AV)), TJ = TJ maximum 1.12 1.00

Low level value on-state slope resistance rt1 (16.7 % x  x IT(AV) < I <  x IT(AV)), 

TJ = TJ maximum 1.34 0.60 m

High level value on-state slope resistance rt2 (I >  x IT(AV)), TJ = TJ maximum 0.96 0.57

Maximum on-state voltage drop VTM

ITM =  x IT(AV), TJ = TJ maximum, 180° conduction,

average power = VT(TO) x IT(AV) + rf x (IT(RMS))21.60 1.44 V

Maximum holding current IHAnode supply = 12 V, initial IT = 30 A, TJ = 25 °C 500 500

Maximum latching current IL

Anode supply = 12 V, resistive load = 1 ,

gate pulse: 10 V, 100 μs, TJ = 25 °C 1000 1000

VS-VSK.170PbF, VS-VSK.250PbF Series

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SWITCHING

PARAMETER SYMBOL TEST CONDITIONS VSK.170 VSK.250 UNITS

Typical delay time tdTJ = 25 °C, gate current = 1 A dIg/dt = 1 A/μs

Vd = 0.67 % VDRM

1.0

μs

Typical rise time tr2.0

Typical turn-off time tq

ITM = 300 A; dI/dt = 15 A/μs; TJ = TJ

maximum;

VR = 50 V; dV/dt = 20 V/μs; gate 0 V, 100 

50 to 150

BLOCKING

PARAMETER SYMBOL TEST CONDITIONS VSK.170 VSK.250 UNITS

Maximum peak reverse and 

off-state leakage current

IRRM,

IDRM

TJ = TJ maximum 50 60 mA

RMS insulation voltage VINS

50 Hz, circuit to base, all terminals shorted,

25 °C, 1 s 3000 V

Critical rate of rise of off-state voltage dV/dt TJ = TJ maximum, exponential to 67 %

rated VDRM

1000 V/μs

TRIGGERING

PARAMETER SYMBOL TEST CONDITIONS VSK.170 VSK.250 UNITS

Maximum peak gate power PGM tp  5 ms, TJ = TJ maximum 10.0 W

Maximum average gate power PG(AV) f = 50 Hz, TJ = TJ maximum 2.0

Maximum peak gate current + IGM tp  5 ms, TJ = TJ maximum 3.0 A

Maximum peak negative gate voltage - VGT tp  5 ms, TJ = TJ maximum 5.0

Maximum required DC gate voltage to trigger VGT

TJ = -40 °C

Anode supply = 12 V,

resistive load; Ra = 1 

4.0

TJ = 25 °C 3.0

TJ = TJ maximum 2.0

Maximum required DC gate current to trigger IGT

TJ = -40 °C

Anode supply = 12 V,

resistive load; Ra = 1 

350

mATJ = 25 °C 200

TJ = TJ maximum 100

Maximum gate voltage that will not trigger VGD TJ = TJ maximum, rated VDRM applied 0.25 V

Maximum gate current that willnot trigger IGD TJ = TJ maximum, rated VDRM applied 10.0 mA

Maximum rate of rise of turned-on current dI/dt TJ = TJ maximum, ITM = 400 A, 

rated VDRM applied 500 A/μs

THERMAL AND MECHANICAL SPECIFICATIONS

PARAMETER SYMBOL TEST CONDITIONS VSK.170 VSK.250 UNITS

Junction operating and storage

temperature range TJ, TStg -40 to +130 °C

Maximum thermal resistance, 

junction to case per junction RthJC DC operation 0.17 0.125

K/W

Typical thermal resistance,

case to heatsink per module RthCS Mounting surface flat, smooth and greased 0.02 0.02

Mounting

torque

± 10 %

MAGN-A-PAK to heatsink A mounting compound is recommended

and the torque should be rechecked after

a period of about 3 hours to allow for the

spread of the compound.

4 to 6 Nm

busbar to MAGN-A-PAK

Approximate weight 500 g

17.8 oz.

Case style MAGN-A-PAK

VS-VSK.170PbF, VS-VSK.250PbF Series

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Note

• Table shows the increment of thermal resistance RthJC when devices operate at different conduction angles than DC

Fig. 1 - Current Ratings Characteristics

Fig. 2 - Current Ratings Characteristics

Fig. 3 - On-State Power Loss Characteristics

Fig. 4 - On-State Power Loss Characteristics

R CONDUCTION PER JUNCTION

DEVICES SINUSOIDAL CONDUCTION AT TJ MAXIMUM RECTANGULAR CONDUCTION AT TJ MAXIMUM UNITS

180° 120° 90° 60° 30° 180° 120° 90° 60° 30°

VSK.170- 0.009 0.010 0.010 0.020 0.032 0.007 0.011 0.015 0.020 0.033 K/W

VSK.250- 0.009 0.010 0.014 0.020 0.032 0.007 0.011 0.015 0.020 0.033

100

110

120

130

0 40 80 120 160 200

30° 60°

90°

120°

180°

Average On-state Current (A)

Maximum Allowable Case Temperature (°C)

Conduction Angle

VSK.170.. series

RthJC (DC) = 0.17 K/W

100

110

120

130

0 50 100 150 200 250 300

30°

60°

90°

120°

180°

Average On-state Current (A)

Maximum Allowable Case Temperature (°C)

Conduction Period

VSK.170.. series

thJC

(DC) = 0.17 K/W

100

150

200

250

300

040801201602

RMS limit

Conduction angle

Maximum Average On-state Power Loss (W)

Average On-state Current (A)

180°

120°

90°

60°

30°

VSK.170.. series

per junction

TJ = 125° C

100

150

200

250

300

350

0 50 100 150 200 250 300

180°

120°

90°

60°

30°

RMS limit

Conduction period

Maximum Average On-state Power Loss (W)

Average On-state Current (A)

VSK.170.. series

per junction

TJ = 125°C

VS-VSK.170PbF, VS-VSK.250PbF Series

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Fig. 5 - Maximum Non-Repetitive Surge Current Fig. 6 - Maximum Non-Repetitive Surge Current

Fig. 7 - On-State Power Loss Characteristics

Fig. 8 - On-State Power Loss Characteristics

2000

2500

3000

3500

4000

4500

5000

110100

Number Of Equal Amplitude Half Cycle Current Pulses (N)

At any rated load condition and with

rated VRRM applied following surge.

Peak Half Sine Wave On-state Current (A)

VSK.170.. series

per junction

Initial TJ = 130 °C

at 60 Hz 0.0083 s

at 50 Hz 0.0100 s

2000

2500

3000

3500

4000

4500

5000

0.01 0.1 1

Peak Half Sine Wave On-state Current (A)

Pulse Train Duration (s)

Maximum non-repetitive surge current

vs. pulse train duration. Control of

conduction may not be maintained

Initial TJ = 130 °C

No voltage reapplied

Rated VRRM reapplied

VSK.170.. series

per junction

020406080100120

0.35K/W

0.3K/W

0.25K/W

0.2K/W

0.08K/W

0.12K/W

0.16K

Maximum Allowable Ambient Temperature (°C)

R=0.04K/W-DeltaR

thS

100

150

200

250

300

350

400

0 50 100 150 200 250 300 350 400

180°

120°

90°

60°

30°

Maximum Total On-state Power Loss (W)

Total RMS Output Current (A)

Conduction angle

VSK.170.. series

per module

TJ = 130 °C

0 20406080100120

Maximum Allowable Ambient Temperature (°C)

R=0.02K/W-DeltaR

0.04K/W

thS

0.06K/W

0.08K/W

0.1K

0.12K/W

0.16K/W

0.2K/W

0.25K/W

0.35K/W

100

200

300

400

500

600

700

800

900

1000

0 50 100 150 200 250 300 350

Total Output Current (A)

Maximum Total Power Loss (W)

180°

(sine)

180°

(rect.)

2 x VSK.170.. series

single phase bridge

connected

TJ = 130 °C

VS-VSK.170PbF, VS-VSK.250PbF Series

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Fig. 9 - On-State Power Loss Characteristics

Fig. 10 - Current Ratings Characteristics

Fig. 11 - Current Ratings Characteristics

Fig. 12 - On-State Power Loss Characteristics

Fig. 13 - On-State Power Loss Characteristics

020406080100120

Maximum Allowable Ambient Temperature (°C)

0.25K/W

0.16K

0.12K/W

0.1K/W

0.08K/W

0.05K/W

0.03K/W

R=0.01K/W-DeltaR

thS

200

400

600

800

1000

1200

1400

1600

0 100 200 300 400 500

Total Output Current (A)

Maximum Total Power Loss (W)

120°

(Rect)

3 x VSK.170.. series

three phase bridge

connected

TJ = 130 °C

100

110

120

130

0 50 100 150 200 250 300

30°

60°

90°

120°

180°

Average On-state Current (A)

Maximum Allowable Case Temperature (°C)

Conduction angle

VSK.250.. series

RthJC(DC) = 0.125 K/W

100

110

120

130

0 100 200 300 400 500

30°

60°

90°

120°

180°

Average On-state Current (A)

Maximum Allowable Case Temperature (°C)

Conduction period

VSK.250.. Series

RthJC (DC) = 0.125 K/W

100

150

200

250

300

350

050100150200250

RMS limit

Conduction Angle

Maximum Average On-state Power Loss (W

)

Average On-state Current (A)

180°

120°

90°

60°

30°

VSK.250.. series

per junction

T = 130 °C

100

150

200

250

300

350

400

450

500

0 50 100 150 200 250 300 350 400

180°

120°

90°

60°

30°

RMS limit

Conduction period

Maximum Average On-state Power Loss (W

)

Average On-state Current (A)

VSK.250.. series

per junction

TJ = 130 °C

VS-VSK.170PbF, VS-VSK.250PbF Series

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Fig. 14 - Maximum Non-Repetitive Surge Current Fig. 15 - Maximum Non-Repetitive Surge Current

Fig. 16 - On-State Power Loss Characteristics

Fig. 17 - On-State Power Loss Characteristics

3500

4000

4500

5000

5500

6000

6500

7000

7500

11010

Number Of Equal Amplitude Half Cycle Current Pulses (N)

Peak Half Sine Wave On-state Current (A)

VSK.250.. series

per junction

At any rated load condition and with

rated VRRM applied following surge.

Initial T = 130 °C

at 60 Hz 0.0083 s

at 50 Hz 0.0100 s

3000

4000

5000

6000

7000

8000

9000

0.01 0.1 1

Peak Half Sine Wave On-state Current (A)

Pulse Train Duration (s)

Maximum non-repetitive surge Current

vs. pulse train duration. Control of

conduction may not be maintained.

VSK.250.. series

per junction

Initial TJ = 130 °C

No voltage reapplied

Rated VRRM reapplied

020406080100120

Maximum Allowable Ambient Temperature (°C)

0.3K

0.25K/W

0.20K/W

0.16K/W

0.12K/W

0.08K

0.05K/W

R=0.02K/W-DeltaR

thS

100

200

300

400

500

600

700

0 100 200 300 400 500 600

180°

120°

90°

60°

30°

Maximum Total On-state Power Loss (W)

Conduction angle

Total RMS Output Current (A)

VSK.250.. series

per module

TJ = 130 °C

0 20406080100120

Maximum Allowable Ambient Temperature (°C)

R=0.01K/W-DeltaR

thS

0.02 K/W

0.03K/W

0.04K/W

0.05K

0.06K

0.1K/W

0.12K/W

0.16K/W

0.3 K/W

200

400

600

800

1000

1200

1400

100 200 300 400 500

Maximum Total Power Loss (W)

Total Output Current (A)

180°

(sine)

180°

(rect.)

2 x VSK.250.. series

single phase bridge

connected

= 130 °C

VS-VSK.170PbF, VS-VSK.250PbF Series

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Fig. 18 - On-State Power Loss Characteristics

Fig. 19 - On-State Voltage Drop Characteristics

Fig. 20 - On-State Voltage Drop Characteristics

Fig. 21 - Reverse Recovery Charge Characteristics

Fig. 22 - Reverse Recovery Charge Characteristics

0 20406080100120

Maximum Allowable Ambient Temperature (°C)

R=0.01K/W-DeltaR

0.03K/W

0.04K/W

0.05K/W

0.06K

0.08K/W

0.1K/W

0.12K

0.16K/W

0.20K/W

0.25K

thS

200

400

600

800

1000

1200

1400

1600

1800

2000

100 200 300 400 500 600 700

Maximum Total Power Loss (W)

Total Output Current (A)

120°

(Rect)

3 x VSK.250.. series

three phase bridge

connected

TJ = 130 °C

0.5 1 1.5 2 2.5 3 3.5 4 4.5 5

100

1000

10 000

Instantaneous Forward Current (V)

Instantaneous Forward Voltage (V)

= 130 °C

VSK.170 series

per junction

= 25 °C

0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6

100

1000

10 000

Instantaneous Forward Current (V)

Instantaneous Forward Voltage (V)

TJ = 130 °C

VSK.250 series

per junction

TJ = 25 °C

200

400

600

800

1000

1200

1400

1600

1800

0 102030405060708090100

Rate Of Fall Of On-state Current - di/dt (A/µs)

Typical Reverse Recovery Charge - Qrr (µC)

= 800 A

500 A

300 A

200 A

100 A

VSK.170.. series

TJ = 130 °C

per junction

50 A

200

400

600

800

1000

1200

1400

1600

1800

2000

2200

2400

0 1020304050607080901

Typical Reverse Recovery Charge - Q

(µC)

Rate Of Fall Of On-state Current - di/dt (A/µs)

500 A

300 A

200 A

100 A

T = 130 °C

Per Junction

= 800 A

50 A

VSK.250.. series

= 130 °C

per junction

VS-VSK.170PbF, VS-VSK.250PbF Series

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Fig. 23 - Gate Characteristics

Fig. 24 - Thermal Impedance ZthJC Characteristics

ORDERING INFORMATION TABLE

Note

• To order the optional hardware go to www.vishay.com/doc?95172

0.1

100

0.001 0.01 0.1 1 10 100

VGD

IGD

(b)

(a)

= 25 °C

= 125 °C

= -40 °C

(2) (3)

Instantaneous Gate Current (A)

Instantaneous Gate Voltage (V)

a) Recommended load line for

b) Recommended load line for

rated di/dt : 20 V, 10 Ω; tr < = 1 µs

≤

1 µs

Rectangular gate pulse

≤

30 % rated di/dt : 10 V, 20 Ω

(1) PGM = 10 W, tp = 4 ms

(2) PGM = 20 W, tp = 2 ms

(3) PGM = 40 W, tp = 1 ms

(4) PGM = 60 W, tp = 0.66 ms

VSK.170/250 series Frequency limited by PG(AV)

(1) (4)

0.001

0.01

0.1

0.001 0.01 0.1 1 10 1

Square Wave Pulse Duration (s)

VSK.170.. series

Steady state value:

RthJC = 0.17 K/W

R = 0.125 K/W

(DC Operation)

thJC

Transient Thermal Impedance ZthJC (K/W)

VSK.250.. series

Device code

KTVS-VS 250 - 20 PbF

1 432 5

- Circuit configuration (see dimensions - link at the end of datasheet)

- Current rating

- Voltage code x 100 = VRRM (see Voltage Ratings table)

- • None = standard production

• PbF = lead (Pb)-free

- Vishay Semiconductors product

VS-VSK.170PbF, VS-VSK.250PbF Series

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CIRCUIT CONFIGURATION

CIRCUIT DESCRIPTION CIRCUIT

CONFIGURATION CODE CIRCUIT DRAWING

Two SCRs doubler circuit KT

Available up to 2000 V, contact factory for different requirement

SCR/diode doubler circuit, positive control KH

Available up to 2000 V, contact factory for different requirement

SCR/diode doubler circuit, negative control KL

Available up to 2000 V, contact factory for different requirement

Two SCRs common cathodes KU

Available up to 1200 V, contact factory for different requirement

LINKS TO RELATED DOCUMENTS

Dimensions www.vishay.com/doc?95086

VSKT...

K1G1 G2K2

VSKH...

K1G1

VSKL...

VSKU...

K1G1 G2 K

Document Number: 95086 For technical questions, contact: indmodules@vishay.com www.vishay.com

Revision: 03-Aug-07 1

MAGN-A-PAK

Outline Dimensions

Vishay Semiconductors

DIMENSIONS in millimeters (inches)

Notes

• Dimensions are nominal

• Full engineering drawings are available on request

• UL identification number for gate and cathode wire: UL 1385

• UL identification number for package: UL 94 V-0

Ø 5.5

(0.24)

38 (1.5)

50 (1.97)

6 (0.24)

115 (4.53)

80 (3.15)

9 (0.35)

20 (0.79)

3 screws M8 x 1.25 35 (1.38) 28 (1.12)

(1.26)

HEX 13

10 (0.39)

92 (3.62)

51 (2.01)

52 (2.04)

Legal Disclaimer Notice

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

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RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.

Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,

“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other

disclosure relating to any product.

Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or

the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all

liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special,

consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular

purpose, non-infringement and merchantability.

Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of

typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding

statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a

particular product with the properties described in the product specification is suitable for use in a particular application.

Parameters provided in datasheets and / or specifications may vary in different applications and performance may vary over

time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s

technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase,

including but not limited to the warranty expressed therein.

Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining

applications or for any other application in which the failure of the Vishay product could result in personal injury or death.

Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk.

Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for

such applications.

No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document

or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.

Mouser Electronics

Authorized Distributor

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VSKH170-16 VSKH170-04 VSKL170-16 VSKL170-16D25 VSKH170-12 VSKL170-14D20 VSKT250-12PBF

VSKT170-14 VSKT170-08 VSKH170-16D25 VSKT170-16 VSKV250-04 VSKT170-12 VSKV250-08 VSKV250-12

VSKT170-04 VSKH170-14D20 VS-VSKH250-04PBF VS-VSKH170-16PBF VS-VSKH250-08PBF VS-VSKH250-

14PBF VS-VSKV250-08PBF VS-VSKV250-12PBF VS-VSKH250-16PBF VS-VSKL250-12PBF VSKH170-12PBF

VSKL250-12PBF VSKL250-16PBF VSKT170-12PBF VSKT170-14PBF VSKT170-16PBF VSKT250-04PBF

VSKT250-08PBF VSKT250-14PBF VSKT250-16PBF VSKU250-12 VSKU250-12PBF VSKV250-12PBF VS-

VSKL250-08PBF VS-VSKT250-04PBF VS-VSKT170-04PBF VS-VSKT250-12PBF VS-VSKT250-08PBF VS-

VSKT250-16PBF VS-VSKL250-16PBF VS-VSKT170-16PBF VS-VSKL250-14PBF VS-VSKT250-14PBF VS-

VSKV250-04PBF VS-VSKT170-14PBF VS-VSKL170-16PBF VS-VSKT170-12PBF VS-VSKH250-12PBF VS-

VSKT170-08PBF VS-VSKU250-12PBF VS-VSKH170-12PBF VS-VSKT250-18PBF VS-VSKL250-18PBF VS-

VSKL250-20PBF VS-VSKH250-20PBF VS-VSKT250-20PBF VS-VSKH250-18PBF