N0910LS240 [IXYS]

Silicon Controlled Rectifier, 1788A I(T)RMS, 1569000mA I(T), 2400V V(DRM), 2400V V(RRM), 1 Element, 101A336, 3 PIN;


型号：	N0910LS240
厂家：	IXYS CORPORATION
描述：	Silicon Controlled Rectifier, 1788A I(T)RMS, 1569000mA I(T), 2400V V(DRM), 2400V V(RRM), 1 Element, 101A336, 3 PIN 栅栅极
文件：	总9页 (文件大小：98K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Date:- 6 Feb, 2001

Data Sheet Issue:- 1

WESTCODE

Phase Control Thyristor

Types N0910LS200 to N0910LS260

Absolute Maximum Ratings

MAXIMUM

LIMITS

VOLTAGE RATINGS

UNITS

V_DRM

V_DSM

V_RRM

V_RSM

Repetitive peak off-state voltage, (note 1)

Non-repetitive peak off-state voltage, (note 1)

Repetitive peak reverse voltage, (note 1)

Non-repetitive peak reverse voltage, (note 1)

2000-2600

2100-2700

MAXIMUM

LIMITS

OTHER RATINGS

UNITS

I_T(AV)

I_T(RMS)

I_T(d.c.)

I_TSM

I_TSM2

I²t

Mean on-state current, T_sink=55°C, (note 2)

Mean on-state current. T_sink=85°C, (note 2)

Mean on-state current. T_sink=85°C, (note 3)

Nominal RMS on-state current. T_sink=25°C, (note 2)

D.C. on-state current. T_sink=25°C, (note 4)

910

630

386

1788

1569

9.2

Peak non-repetitive surge t_p=10ms, V_RM=0.6V_RRM, (note 5)

A²s

A/µs

≤

10.1

Peak non-repetitive surge t_p=10ms, V_RM10V, (note 5)

I²t capacity for fusing t_p=10ms, V_RM=0.6V_RRM, (note 5)

423×10³

510×10³

300

I²t

≤

I²t capacity for fusing t_p=10ms, V_RM10V, (note 5)

Maximum rate of rise of on-state current (repetitive), (Note 6)

Maximum rate of rise of on-state current (non-repetitive), (Note 6)

Peak reverse gate voltage

di_T/dt

600

V_RGM

P_G(AV)

P_GM

V_GD

Mean forward gate power

Peak forward gate power

Non-trigger gate voltage, (Note 7)

Operating temperature range

0.25

T_HS

-40 to +125

-40 to +150

°C

T_stg

Storage temperature range

Notes:-

1) De-rating factor of 0.13% per °C is applicable for T_jbelow 25°C.

2) Double side cooled, single phase; 50Hz, 180° half-sinewave.

3) Single side cooled, single phase; 50Hz, 180° half-sinewave.

4) Double side cooled.

5) Half-sinewave, 125°C T_jinitial.

≤

6) V_D=67% V_DRM, I_TM=2000A, I_FG=2A, t_r0.5µs, T_case=125°C.

7) Rated V_DRM, T_case=125°C.

Data Sheet Issue 1. Types N0910LS200 to N0910LS260.

Page 1 of 9

February, 2001

WESTCODE ^{Positive development in power electronics}

N0910LS200 to N0910LS260

Characteristics

PARAMETER

MIN.

TYP. MAX. TEST CONDITIONS

UNITS

(Note 1)

V_TMMaximum peak on-state voltage

2.07 I_TM=1700A

V₀

r_S

Threshold voltage

Slope resistance

1.04

0.606

Ω

Critical rate of rise of off-state

voltage

dv/dt

1000

V_D=80% V_DRM

V/ s

I_DRMPeak off-state current

I_RRMPeak reverse current

V_GTGate trigger voltage

Rated V_DRM

Rated V_RRM

T_j=25°C

3.0

I_GT

I_H

Gate trigger current

Holding current

300 T_j=25°C.

1000 T_j=25°C

V_D=10V, I_T=2A

K/W

0.032 Double side cooled

Thermal resistance, junction to

heatsink

0.064 Single side cooled

Mounting force

Weight

W_t

340

Notes:-

1) Unless otherwise indicated T_j=125°C.

Data Sheet Issue 1. Types N0910LS200 to N0910LS260.

Page 2 of 9

February, 2001

WESTCODE ^{Positive development in power electronics}

Notes on Ratings and Characteristics

1.0 Voltage Grade Table

N0910LS200 to N0910LS260

_DRMV_DSMV_RRM

V_RSM

2100

2300

2500

2700

V_DV_R

DC V

1250

1350

1450

1550

Voltage Grade 'H'

2000

2200

2400

2600

2.0 Extension of Voltage Grades

This report is applicable to other and higher voltage grades when supply has been agreed by

Sales/Production.

3.0 De-rating Factor

A blocking voltage de-rating factor of 0.13%/°C is applicable to this device for T_jbelow 25°C.

4.0 Repetitive dv/dt

Standard dv/dt is 1000V/µs.

5.0 Computer Modelling Parameters

5.1 Device Dissipation Calculations

∆T

W_AV=

−V₀+ V₀+ 4 ff r_sW_AV

R_th

∆T = T_{j max}−T_Hs

I _AV=

and:

2 ff r_s

Ω,

Where V₀=1.04V, r_s=0.606m

R_th

= Supplementary thermal impedance, see table below.

ff _{= Form factor, see table below.}

Supplementary Thermal Impedance

Conduction Angle

30°

60°

90°

120°

180°

270°

d.c.

Square wave Double Side Cooled

Square wave Single Side Cooled

Sine wave Double Side Cooled

Sine wave Single Side Cooled

0.048

0.079

0.0415

0.0735

0.0436

0.0769

0.0394

0.0718

0.0413

0.074

0.0378

0.07

0.0388

0.0716

0.0355

0.0679

0.036

0.0688

0.032

0.064

0.0345

0.0665

0.032

0.064

Form Factors

Conduction Angle

Square wave

Sine wave

30°

3.46

3.98

60°

2.45

2.78

90°

2.22

120°

1.73

1.88

180°

1.41

1.57

270°

1.15

d.c.

Data Sheet Issue 1. Types N0910LS200 to N0910LS260.

Page 3 of 9

February, 2001

WESTCODE ^{Positive development in power electronics}

N0910LS200 to N0910LS260

5.2 Calculating V_Tusing ABCD Coefficients

The on-state characteristic I_Tvs. V_T, on page 7 is represented in two ways;

(i)

the well established V_oand r_stangent used for rating purposes and

(ii)

a set of constants A, B, C, D, forming the coefficients of the representative equation for V_Tin

terms of I_Tgiven below:

V_TA B I_TC I_TD I_T

= + ln( )

The constants, derived by curve fitting software, are given below for both hot and cold characteristics. The

resulting values for V_Tagree with the true device characteristic over a current range, which is limited to

that plotted.

25°C Coefficients

125°C Coefficients

0.908566

0.02200912

3.661922x10^-4

0.005349066

0.417877

0.1200233

6.308007x10^-4

-0.007297986

5.3 D.C. Thermal Impedance Calculation

−t

p=n

r = r 1− e^τ

∑

p=1

Where p = 1 to n, n is the number of terms in the series and:

t = Duration of heating pulse in seconds.

r_t

= Thermal resistance at time t.

r_p= Amplitude of p_thterm.

τ_p

= Time Constant of r_thterm.

D.C. Double Side Cooled

Term

r_p

0.01771901

0.7085781

4.240625×10^-3

6.963806×10^-3

3.043661×10^-3

2.130842×10^-3

τ_p

0.1435833

0.03615196

D.C. Single Side Cooled

Term

r_p

0.03947164

4.090062

0.01022837

1.078983

8.789912×10^-3

4.235162×10^-3

1.907609×10^-3

1.240861×10^-3

τ_p

0.08530917

0.01128791

Data Sheet Issue 1. Types N0910LS200 to N0910LS260.

Page 4 of 9

February, 2001

WESTCODE ^{Positive development in power electronics}

N0910LS200 to N0910LS260

Curves

Figure 1 - On-state current vs. Power dissipation -

Double Side Cooled (Sine wave)

Figure 2 - On-state current vs. Heatsink temperature

- Double Side Cooled (Sine wave)

140

3500

N0910LS200-260

Issue 1

180°

120

3000

120°

90°

60°

2500

2000

1500

1000

500

30°

100

30°

60°

90° 120°

180°

N0910LS200-260

Issue 1

200

400

600

800

1000

1200

200

400

600

800

1000

1200

Mean forward current (A) (Whole cycle averaged)

Figure 3 - On-state current vs. Power dissipation -

Double Side Cooled (Square wave)

Figure 4 - On-state current vs. Heatsink temperature

- Double Side Cooled (Square wave)

140

3500

N0910LS200-260

Issue 1

d.c.

270°

120

3000

2500

2000

1500

1000

500

180°

120°

90°

100

60°

30°

30° 60° 90° 120° 180° 270° d.c.

N0910LS200-260

Issue 1

500

1000

1500

2000

500

1000

1500

2000

Mean Forward Current (Amps) (Whole Cycle Averaged)

Data Sheet Issue 1. Types N0910LS200 to N0910LS260.

Page 5 of 9

February, 2001

WESTCODE ^{Positive development in power electronics}

N0910LS200 to N0910LS260

Figure 5 - On-state current vs. Power dissipation -

Single Side Cooled (Sine wave)

Figure 6 - On-state current vs. Heatsink temperature

- Single Side Cooled (Sine wave)

140

1800

N0910LS200-260

Issue 1

180°

1600

120

120°

90°

60°

30°

1400

100

1200

1000

800

600

400

30°

60°

90°

120° 180°

200

N0910LS200-260

Issue 1

200

400

600

800

200

400

600

800

Mean forward current (A) (Whole cycle averaged)

Figure 7 - On-state current vs. Power dissipation -

Single Side Cooled (Square wave)

Figure 8 - On-state current vs. Heatsink temperature

- Single Side Cooled (Square wave)

140

1800

N0910LS200-260

Issue 1

d.c.

1600

1400

1200

1000

800

600

400

200

120

270°

180°

120°

90°

60°

30°

100

60° 90° 120° 180° 270° d.c.

30°

N0910LS200-260

Issue 1

200

400

600

800

1000

1200

200

400

600

800

1000

1200

Mean Forward Current (Amps) (Whole Cycle Averaged)

Data Sheet Issue 1. Types N0910LS200 to N0910LS260.

Page 6 of 9

February, 2001

WESTCODE ^{Positive development in power electronics}

N0910LS200 to N0910LS260

Figure 9 - On-state characteristics of Limit device

Figure 10 - Transient Thermal Impedance

0.1

10000

SSC 0.064K/W

T_j= 25°C

T_j= 125°C

DSC 0.032K/W

1000

0.01

N0910LS200-260

Issue 1

N0910LS200-260

Issue 1

100

0.001

0.01

0.1

100

Instantaneous On-state voltage - V_TM(V)

Time (s)

Figure 11 - Gate Characteristics - Trigger Limits

Figure 12 - Gate Characteristics - Power Curves

N0910LS200-260

Issue 1

T_j=25°C

Max V_Gdc

I_GT, V_GT

P_GMax 30W dc

P_G4W dc

Min V_Gdc

I_GD,V_GD

Min V_Gdc

0.1

0.2

0.3

0.4

0.5

0.6

Gate Trigger Current - I_GT(A)

Data Sheet Issue 1. Types N0910LS200 to N0910LS260.

Page 7 of 9

February, 2001

WESTCODE ^{Positive development in power electronics}

N0910LS200 to N0910LS260

Figure 13 - Maximum surge and I²t Ratings

100000

1.00E+07

N0910LS200-260

Issue 1

T_j(initial) = 125°C

I²t: V_RRM≤10V

I²t: 60% V_RRM

10000

1.00E+06

≤

I_TSM: V_RRM10V

I_TSM: 60% V_RRM

1000

1.00E+05

50 100

Duration of surge (ms)

Duration of surge (cycles @ 50Hz)

Data Sheet Issue 1. Types N0910LS200 to N0910LS260.

Page 8 of 9

February, 2001

WESTCODE ^{Positive development in power electronics}

N0910LS200 to N0910LS260

Outline Drawing & Ordering Information

ORDERING INFORMATION

(Please quote 10 digit code as below)

N0910

♦ ♦

Fixed

Type Code

Fixed

Outline Code

Voltage Code

20-26

Fixed turn-off

time code

Typical order code : N0910LS180 – 1800V V_DRM, V_RRM, 1000V/µs dv/dt, 27mm clamp height capsule.

UK: Westcode Semiconductors Ltd.

P.O. Box 57, Chippenham, Wiltshire, England. SN15 1JL.

Tel: +44 (0) 1249 444524 Fax: +44 (0) 1249 659448

E-Mail: WSL.sales@westcode.com

WESTCODE

USA: Westcode Semiconductors Inc.

3270 Cherry Avenue, Long Beach, California 90807

Tel: +1 (562) 595 6971 Fax: +1 (562) 595 8182

E-Mail: WSI.sales@westcode.com

Internet: http://www.westcode.com

The information contained herein is confidential and is protected by Copyright. The information may not be used or

disclosed except with the written permission of and in the manner permitted by the proprietors Westcode Semiconductors

Ltd.

In the interest of product improvement, Westcode reserves the right to change specifications at any time without prior

notice.

Devices with a suffix code (2-letter or letter/digit/letter combination) added to their generic code are not necessarily subject

to the conditions and limits contained in this report.

Data Sheet Issue 1. Types N0910LS200 to N0910LS260.

Page 9 of 9

February, 2001

N0910LS240 [IXYS]

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