P6SMBJ6.5CA-TR - STMICROELECTRONICS

AC, AC-AT

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Cemented Leaded Wirewound Resistors

DESIGN SUPPORT TOOLS

The AC series is the perfect choice for general purpose

power applications. The AEC-Q200 qualified AC-AT series

is best suited for automotive applications. The robust silicon

cement coating can handle challenging ambient and

operating conditions. Typical applications include but are

not limited to energy meters, power supplies and

automotive electronics. For a given application,

requirements of ohmic value, rated power, peak voltage,

pulse shape, pulse duration, lead bending, and

environmental conditions may be submitted to recommend

the most suitable product.

Various lead forms are available such as RT (radial taped),

WSZ (Z-form), DK (double kink), EK (single kink) with defined

mounting pitch.

FEATURES

• AEC-Q200 qualified AC-AT series

• High power dissipation in small design

• Non-flammable coating conforming to

UL 94 V-0

• Excellent pulse load capability

• Non-inductive (NI) version available

• WSZ-form lead bending available for SMD mounting

• Material categorization: for definitions of compliance

please see www.vishay.com/doc?99912

APPLICATIONS

• Automotive electronics

• Industrial electronics

• Power supplies

• White goods

• Pre-charged applications

Notes

• The operating temperature range for these resistors is from -55 °C up to 250 °C

(1) Resistance value to be selected for ± 5 % from E24

(2) AC03 WSZ: P40 = 1.8 W; P70 °C = 1.5 W

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Available

Models

STANDARD ELECTRICAL SPECIFICATIONS

TYPE

RATED

DISSIPATION

P40

RATED

DISSIPATION

P70

LIMITING

VOLTAGE

Umax.

RESISTANCE

RANGE (1)

TCR =

-10 ppm/K to

-80 ppm/K

RESISTANCE

RANGE (1)

TCR =

+100 ppm/K to

+180 ppm/K

RESISTANCE

RANGE (1)

TCR =

± 100 ppm/K

RESISTANCE

TOLERANCE

AC01 1 W 0.9 W 0.10  to 33 36  to 2.4 k-± 5 %

AC01-AT 1 W 0.9 W 0.39  to 33 36  to 2.4 k-± 5 %

AC03 (2) 3 W 2.5 W 0.10  to 390 430  to 3.3 k3.6 k to 5.1 k± 5 %

AC03-AT 3 W 2.5 W 0.27  to 390 430  to 3.3 k-± 5 %

AC04 4 W 3.5 W 0.10  to 620 680  to 6.8 k-± 5 %

AC04-AT 4 W 3.5 W 0.22  to 620 680  to 6.8 k-± 5 %

AC05 5 W 4.7 W 0.10  to 910 1.0 k to 10 k-± 5 %

AC05-AT 5 W 4.7 W 0.62  to 910 1.0 k to 10 k-± 5 %

AC07 7 W 5.8 W 0.10  to 820 910  to 15 k-± 5 %

AC07-AT 7 W 5.8 W 1.0  to 820 910  to 15 k-± 5 %

AC10 10 W 8.4 W 0.22  to 560 620  to 27 k-± 5 %

AC10-AT 10 W 8.4 W 2.0  to 560 620  to 27 k-± 5 %

P x R

AC, AC-AT

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Note

(1) For special windings or the non-inductive versions, please contact: ww1resistors@vishay.com

PART NUMBER AND PRODUCT DESCRIPTION

Part Number: AC03000001509JAC00

AC03AT0001509JAC00

MODEL VARIANT TCR /

MATERIAL VALUE TOLERANCE

CODE

PACKAGING

CODE SPECIAL

AC01000 = AC01

AC03000 = AC03

AC04000 = AC04

AC05000 = AC05

AC07000 = AC07

AC10000 = AC10

AC01AT0 = AC01-AT

AC03AT0 = AC03-AT

AC04AT0 = AC04-AT

AC05AT0 = AC05-AT

AC07AT0 = AC07-AT

AC10AT0 = AC10-AT

0 = neutral

1 = RT

2 = SWI

3 = DK SP 20 mm

4 = DK LP 33 mm

5 = DK LP 17.8 mm

6 = NI Non inductive

7 = DK LP 25.4 mm

8 = DK SP 25.4 mm

9 = WSZ 6720

Z = Value overflow

A = EK 22.5 mm

B = EK 17.8 mm

C = EK 25.4 mm

D = Cu wire 0.8 mm

E = EK 33 mm

G = DK SP 33 mm

H = EK 20 mm

I = DK SP 17.8 mm

0 = standard 3 digit value

1 digit

multiplier

MULTIPLIER

7 = *10-3

8 = *10-2

9 = *10-1

0 = *100

1 = *101

2 = *102

J = ± 5.0 % (see

Packaging

table)

00 = standard

2 digit code =

customized version (1)



Product Description: AC03 15R 5 % AC

AC03AT 15R 5 % AC

AC03 15R 5 % AC

AC03-AT 15R 5 % AC

TYPE RESISTANCE TOLERANCE PACKAGING

AC01 AC01-AT

AC03 AC03-AT

AC04 AC04-AT

AC05 AC05-AT

AC07 AC07-AT

AC10 AC10-AT

R10 = 0.1 

75R = 75 

27K = 27 k

5 % AC LB

A1 LC

AB LK

AE BM

3AT0 0150C0 9JA 00A 0C

3000 0150C0 9JA 00A 0C

AC, AC-AT

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Note

(1) Manufacturing at different production locations may involve use of differently sized box

PACKAGING

TYPE / SIZE CODE DESCRIPTION QUANTITY PACKAGING STYLE WIDTH PITCH DIMENSIONS

AC01

AC01-AT A1 A1 1000 Taped acc. to IEC 60286-1

fan-folded in a box 63 mm 10 mm 260 mm x 85 mm x 70 mm

AC01 DK/EK LC LC 500 Bulk packaging - - 260 mm x 80 mm x 55 mm

AC01 RT AE RE 2500 Taped acc. to IEC 60286-2

fan-folded in a box - 12.7 mm 200 mm x 46 mm x 334 mm

AC03

AC03-AT AC AC 500 Taped acc. to IEC 60286-1

fan-folded in a box 63 mm 10 mm 260 mm x 85 mm x 58 mm

AC03 DK/EK LC LC 500 Bulk packaging - - 224 mm x 82 mm x 54 mm

AC03 RT AQ AQ 1800 Taped acc. to IEC 60286-2

fan-folded in a box - 12.7 mm 200 mm x 46 mm x 334 mm

AC03 WSZ

AC03-AT WSZ BM BM 1250 Blister taped acc. to

IEC 60286-3 in a box - 8 mm 350 mm x 350 mm x 55 mm

AC04 (1)

AC04-AT (1) AC AC 500 Taped acc. to IEC 60286-1

fan-folded in a box 63 mm 10 mm 260 mm x 85 mm x 70 mm

260 mm x 85 mm x 58 mm

AC04 DK/EK LC LC 500 Bulk packaging - 25.4 mm 224 mm x 82 mm x 54 mm

AC05

AC05-AT AC AC 500 Taped acc. to IEC 60286-1

fan-folded in a box 63 mm 5 mm 270 mm x 86 mm x 118 mm

AC05 DK/EK LC LC 500 Bulk packaging - - 224 mm x 82 mm x 54 mm

AC07

AC07-AT AC AC 500 Taped acc. to IEC 60286-1

fan-folded in a box 73 mm 10 mm 26 mm x 90 mm x 118 mm

AC07 DK/EK LB LB 250 Bulk packaging - - 224 mm x 82 mm x 54 mm

AC10

AC10-AT AB AB 250 Taped acc. to IEC 60286-1

fan-folded in a box 88 mm 10 mm 265 mm x 105 mm x 105 mm

AC, AC-AT

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DESCRIPTION

Wirewound resistors are best suited for use in high power,

high current applications. The silicon cement lacquer

coating enables AC series to withstand challenging

operating and environmental conditions. The coating is

resistant to cleaning solvents specified in IEC 60115-1 (1).

Production is strictly controlled and follows an extensive set

of instructions established for reproducibility.

The winding is done with a specific material on a specially

developed fine ceramic body (Al2O3). The ceramic meets the

highest requirements against mechanical resistance,

thermal shocks, dielectric strength, and insulation

resistance at high temperatures. With different diameters

and turn spacings of resistive wire, a large ohmic value

range can be covered.

The resistors are marked with resistance, rated dissipation

(P40) and tolerance. Product quality is verified by testing

procedures, performed on all individual resistors.

Resistance is measured on the lead wires at a distance of

6 mm from the resistor body. If a greater length of lead wire

is used in the application, the user may need to consider the

additional wire resistance, particularly with low resistance

products.

MATERIALS

Vishay acknowledges the following systems for the

regulation of hazardous substances:

• IEC 62474, Material Declaration for Products of and for the

Electrotechnical Industry, with the list of declarable

substances given therein (2)

• The Global Automotive Declarable Substance List

(GADSL) (3)

• The REACH regulation (1907/2006/EC) and the related list

of substances with very high concern (SVHC) (4) for its

supply chain

The products do not contain any of the banned substances

as per IEC 62474, GADSL, or the SVHC list, see

www.vishay.com/how/leadfree. Hence the products fully

comply with the following directives:

• 2000/53/EC End-of-Life Vehicle Directive (ELV) and

Annex II (ELV II)

• 2011/65/EU Restriction of the Use of Hazardous

Substances Directive (RoHS) with amendment

2015/863/EU

• 2012/19/EU Waste Electrical and Electronic Equipment

Directive (WEEE)

Vishay pursues the elimination of conflict minerals from

its supply chain, see the Conflict Minerals Policy at

www.vishay.com/doc?49037.

ASSEMBLY

The resistors are axial leaded for soldering. The terminals of

the resistors are completely lead (Pb)-free, the special tin

plating provides compatibility with lead (Pb)-free and

lead-containing soldering processes.

Special lead forms may be available on request, please

inquire at ww1resistors@vishay.com. These components

are high dissipation power resistors, customers are advised

to use a high melting point solder.

APPLICATION INFORMATION

The power dissipation of the resistor generates a

temperature rise with respect to the ambient. The

permissible dissipation is derated for temperatures above

40 °C, as shown in the derating diagram, in order to avoid

overheating of the resistor. The heat dissipated from the

resistor may affect adjacent components, hence proper

clearance will be required in order to avoid overheating. The

resistive wire is encapsulated by a protective lacquer

coating.

All materials used are non-flammable and inorganic.

These resistors do not feature a limited lifetime when

operated within the permissible limits. However, resistance

value drift increasing over operating time may result in

exceeding a limit acceptable to the specific application,

thereby establishing a functional lifetime.

APPROVALS

The AC-AT series is AEC-Q200 qualified, specifically for use

in automotive applications.

RELATED PRODUCTS

UL approved, special cement coated fusible resistor is also

available. For details please see the datasheet:

“AC01-CS, AC03-CS, AC05-CS - Axial Cemented Fusible

Wirewound Safety Resistors” www.vishay.com/doc?28909

For high surge wirewound products, silicon cement coated

Z300-Cxx series is available, see the datasheet:

“Z300-Cxx - High Surge Axial Cemented Wirewound

Resistors” www.vishay.com/doc?21027

For precision applications, cement coated PAC series is

available, see the datasheet:

“PAC Series - Cemented Wirewound Precision Resistors”

www.vishay.com/doc?28731



Notes

(1) Other cleaning solvents with aggressive chemicals should be evaluated in actual cleaning process for their suitability

(2) The IEC 62474 list of declarable substances is maintained in a dedicated database, which is available at http://std.iec.ch/iec62474

(3) The Global Automotive Declarable Substance List (GADSL) is maintained by the American Chemistry Council and available at www.gadsl.org

(4) The SVHC list is maintained by the European Chemical Agency (ECHA) and available at http://echa.europa.eu/candidate-list-table

AC, AC-AT

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PULSE DIAGRAMS

(ti = pulse duration; tp = repetition time)

AC01 and AC01-AT Pulse on a regular basis; max. permissible

peak pulse power ( max.) as a function of pulse duration (ti)

AC04 and AC04-AT Pulse on a regular basis; max. permissible

peak pulse power ( max.) as a function of pulse duration (ti)

AC07 and AC07-AT Pulse on a regular basis; max. permissible

peak pulse power ( max.) as a function of pulse duration (ti)

AC03 and AC03-AT Pulse on a regular basis; max. permissible

peak pulse power ( max.) as a function of pulse duration (ti)

AC05 and AC05-AT Pulse on a regular basis; max. permissible

peak pulse power ( max.) as a function of pulse duration (ti)

AC10 and AC10-AT Pulse on a regular basis; max. permissible

peak pulse power ( max.) as a function of pulse duration (ti)

100

1000

10 000

10-6 10-5 10-4 10-2

10-1

Pmax. (W)

ti (s)

10-3

tp/ti = 1000

tp/ti = 200

tp/ti = 50

tp/ti = 10

tp/ti = 2

1R0

R10

10R

100R

2K0

100

1000

10 000

10-6 10-5 10-4 10-3 10-1

Pmax. (W)

ti (s)

10-2

tp/ti = 1000

tp/ti = 200

tp/ti = 50

tp/ti = 10

tp/ti = 2

R10

1R0

10R

100R

6K8

100

1000

10 000

10-6 10-5 10-4 10-3 10-1

1 10

Pmax. (W)

ti (s)

10-2

tp/ti = 1000

tp/ti = 200

tp/ti = 50

tp/ti = 10

tp/ti = 2

1R1

R10

11R

100R

15K

100

1000

10 000

10-6 10-5 10-3 10-2 10-1 1

Pmax. (W)

ti (s)

10-4

tp/ti = 1000

tp/ti = 200

tp/ti = 50

tp/ti = 10

tp/ti = 2

R10

1R0

10R

110R

4K7

100

1000

10 000

10-6 10-5 10-4 10-3 10-1

1 10

Pmax. (W)

ti (s)

10-2

tp/ti = 1000

tp/ti = 200

tp/ti = 50

tp/ti = 10

tp/ti = 2

1R1

R10

11R

100R

8K2

100

1000

10 000

10-6 10-5 10-4 10-3 10-1

110

Pmax. (W)

ti (s)

10-2

tp/ti = 1000

tp/ti = 200

tp/ti = 50

tp/ti = 10

tp/ti = 2

R68

2R2

33R

240R

15K

AC, AC-AT

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PULSE DIAGRAMS

Pulse energy in joules or wattseconds is calculated with the help of the R-value to be used in the application. Choose the R

value on X axis and look for the corresponding E (Ws/) value on Y axis. Multiplying both the R () to corresponding E (Ws/),

will be resultant total pulse Energy (Ws or J) for adiabatic conditions.

AC01 and AC01-AT Pulse capability; E (Ws) as a function of R ()

AC04 and AC04-AT Pulse capability; E (Ws) as a function of R ()

AC07 and AC07-AT Pulse capability; E (Ws) as a function of R ()

AC03 and AC03-AT Pulse capability; E (Ws) as a function of R ()

AC05 and AC05-AT Pulse capability; E (Ws) as a function of R ()

AC10 and AC10-AT Pulse capability; E (Ws) as a function of R ()

0.0001

0.001

0.01

0.1

100

0.1 1 10 100 1000 10 000

Pulse Energy (Ws/

Ω)

R (Ω)

0.0001

0.001

0.01

0.1

100

1000

0.1 1 10 100 1000 10 000

Pulse Energy (Ws/

Ω)

R (Ω)

0.0001

0.001

0.01

0.1

100

1000

0.1 1 10 100 1000 10 000

Pulse Energy (Ws/

Ω)

R (Ω)

0.00001

0.0001

0.001

0.01

0.1

100

1000

0.1 1 10 100 1000 10 000

Pulse Energy (Ws/

Ω)

R (Ω)

0.0001

0.001

0.01

0.1

100

1000

0.1 1 10 100 1000 10 000

Pulse Energy (Ws/

Ω)

R (Ω)

0.0001

0.001

0.01

0.1

100

1000

0.1 1 10 100 1000 10 000 100 000

Pulse Energy (Ws/Ω)

R (Ω)

AC, AC-AT

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AC01 and AC01-AT Pulse on a regular basis; max. permissible

peak pulse voltage ( max.) as a function of pulse duration (ti)

AC04 and AC04-AT Pulse on a regular basis; max. permissible

peak pulse voltage ( max.) as a function of pulse duration (ti)

AC07 and AC07-AT Pulse on a regular basis; max. permissible

peak pulse voltage ( max.) as a function of pulse duration (ti)

AC03 and AC03-AT Pulse on a regular basis; max. permissible

peak pulse voltage ( max.) as a function of pulse duration (ti)

AC05 and AC05-AT Pulse on a regular basis; max. permissible

peak pulse voltage ( max.) as a function of pulse duration (ti)

AC10 and AC10-AT Pulse on a regular basis; max. permissible

peak pulse voltage ( max.) as a function of pulse duration (ti)

ti (s)

Vmax. (V)

1500

500

10-6 10-5 10-4 10-3 10-2 10-1 1

1000

2500

2000

1500

500

1000

ti (s)

Vmax. (V)

10-6 10-5 10-4 10-3 10-2 10-1 1

5000

4000

3000

1000

2000

(s)

max.

(V)

10-6 10-5 10-4 10-3 10-2 10-1 1

ti (s)

Vmax. (V)

10-6 10-5 10-4 10-3 10-2 10-1 1

2000

1500

500

1000

2500

2000

1500

500

1000

ti (s)

Vmax. (V)

10-6 10-5 10-4 10-3 10-2 10-1 1

5000

4000

3000

1000

2000

ti (s)

Vmax. (V)

10-6 10-5 10-4 10-3 10-2 10-1 1

AC, AC-AT

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FUNCTIONAL PERFORMANCE

100

120

-40 50 100 150 200 250 300 350

Ambient Temperature in °C

Rated Power in %

Derating

100

150

200

250

300

350

010155

Temperature Rise

Power in W

Temperature Rise in K

AC10,

AC10-AT

AC05,

AC05-AT

AC04,

AC04-AT

AC03,

AC03-AT

AC01,

AC01-AT

AC07,

AC07-AT

AC, AC-AT

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TESTS PROCEDURES AND REQUIREMENTS

All tests are carried out in accordance with the following

specifications:

• IEC 60115-1, generic specification (includes tests)

The test and requirements table contains only the most

important tests. For the full test schedule refer to the

documents above.

The tests are carried out in accordance with IEC 60068-2-xx

test method and under standard atmospheric conditions in

accordance with IEC 60068-1, 5.3.

Climatic category -40 / 200 / 56 (rated temperature range:

lower category temperature, upper category temperature;

damp heat, steady state, test duration: 56 days) is valid.

Unless otherwise specified the following values apply:

• Temperature: 15 °C to 35 °C

• Relative humidity: 45 % to 75 %

• Air pressure: 86 kPa to 106 kPa (860 mbar to 1060 mbar)

For performing some of the tests, the components are

mounted on a test board in accordance with IEC 60115-1,

4.31.

In test procedures and requirements table, only the tests

and requirements are listed with reference to the relevant

clauses of IEC 60115-1 and IEC 60068-2-xx test methods.

A short description of the test procedure is also given.

TEST PROCEDURES AND REQUIREMENTS

IEC 60115-1

CLAUSE

IEC 60068-2

TEST

METHOD

TEST PROCEDURE REQUIREMENTS

PERMISSIBLE CHANGE (RMAX.)

4.13 - Short time overload

Room temperature;

10x rated power P40;

5 s

± (2 % R + 0.1 )

4.16

21 (Ua1)

21 (Ub)

21 (Uc)

Robustness of

terminations Tensile, bending and torsion No damage

± (0.5 % R + 0.05)

4.18 20 (Tb) Resistance to

soldering heat

Unmounted components

(260 ± 5) °C; (10 ± 1) s ± (0.5 % R + 0.05)

4.19 - Rapid change

of temperature

30 min at -55 °C and

30 min at +200 °C;

5 cycles

± (1.5 % R + 0.05 )

4.23 Climatic sequence:

4.23.2 2 (Ba) Dry heat 16 h; 200 °C

± (1 % R + 0.05 )

4.23.3 30 (Db)

Damp heat

(accelerated)

1st cycle

24 h; 55 °C;

90 % to 100 % RH

4.23.4 1 (Aa) Cold 2 h; -55 °C

4.23.5 13 (M) Low air pressure 2 h; 8.5 kPa;

15 °C to 35 °C

4.23.6 30 (Db) Damp heat

remaining cyclic

5 days; 55 °C;

95 % to 100 % RH; 5 cycles

4.24 78 (Cab) Damp heat,

(steady state)

56 days; (40 ± 2) °C;

(93 ± 5) % RH ± (5 % R + 0.1 )

4.25.2 - Endurance

(at room temperature)

1000 h;

loaded with 116 % of P70 ± (5 % R + 0.1 )

4.25.3 -

Endurance at

upper category

temperature

125 °C; without load; 1000 h ± (5 % R + 0.1 )

200 °C; 30 % of P70; 1000 h ± (5 % R + 0.1 )

4.35 - Flammability IEC 60695-11-5

needle flame test; 10 s No burning after 30 s

4.37 67 C(y) Damp heat, steady state,

accelerated

(85 ± 2) °C; RH (85 ± 3) %;

1000 h;

10 % of operation power (P70)

U  0.3 x Umax.

± (5 % R + 0.1 )

4.38 - Electrostatic discharge test 2 discharges, 8 kV

(1 positive, 1 negative) ± (5 % R + 0.1 )

AC, AC-AT

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DIMENSION AND MASS

LEAD TERMINATION BENDING FORMS

Note

(1) Terminal wire material is FeCu

DIMENSIONS in millimeters

TYPE Lmax. Dmax. dx

max. BMASS PER UNIT (g)

AC01, AC01-AT 11.0 4.3

0.8 ± 0.03

2 63 ± 1 0.52

AC03, AC03-AT 13.0 4.8 2 63 ± 1 0.75

AC04, AC04-AT 16.5 5.5 3 63 ± 1 1.10

AC05, AC05-AT 18.0 7.5 3 63 ± 1 1.90

AC07, AC07-AT 26.0 7.5 3 73 ± 1 2.60

AC10, AC10-AT 44.0 8.0 3 88 ± 1 4.50

DIMENSIONS - Single and double kink lead type outline

TYPE Ø Dmax.

(mm)

Lmax.

(mm)

KINK

TYPE

TERMINATION

WIRE DIAMETER (1)

Ø d (mm)

h ± 1

(mm)

P ± 0.5

(mm)

P1 ± 0.5

(mm)

P2 ± 3

(mm)

Smax.

(mm)

Ø B ± 0.1

(mm)

MASS

(g)

PART

NUMBER

VARIANT

AC01 4.3 11.0

EK 0.8 ± 0.03 8.0 17.8 - - 2 1.0 0.52 B

DK SP 0.8 ± 0.03 8.0 - 19.8 17.8 2 1.0 0.52 I

DK LP 0.8 ± 0.03 8.0 - 17.8 17.8 2 1.0 0.52 5

AC03 4.8 13.0

EK 0.8 ± 0.03 8.0 20.0 - - 2 1.0 0.75 H

EK 0.8 ± 0.03 8.0 25.4 - - 2 1.0 0.75 C

DK SP 0.8 ± 0.05 8.0 - 22.0 20.0 2 1.0 0.75 3

DK SP 0.8 ± 0.05 8.0 - 27.4 25.4 2 1.0 0.75 8

DK LP 0.8 ± 0.05 8.0 - 17.8 17.8 2 1.0 0.75 5

DK LP 0.8 ± 0.05 8.0 - 25.4 25.4 2 1.0 0.75 7

AC04 5.5 16.5

EK 0.8 ± 0.05 8.0 25.4 - - 2 1.0 1.10 C

DK SP 0.8 ± 0.05 8.0 - 22.0 20.0 2 1.0 1.10 3

DK SP 0.8 ± 0.05 8.0 - 27.4 25.4 2 1.0 1.10 8

DK LP 0.8 ± 0.05 8.0 25.4 25.4 2 1.0 1.10 7

AC05 7.5 18.0

EK 0.8 ± 0.05 8.0 22.5 - - 2 1.0 1.90 A

EK 0.8 ± 0.05 8.0 25.4 - - 2 1.0 1.90 C

DK SP 0.8 ± 0.05 8.0 - 22.0 20.0 2 1.0 1.90 3

AC07 7.5 26.0

EK 0.8 ± 0.05 8.0 33.0 - - 2 1.0 2.60 E

DK SP 0.8 ± 0.05 8.0 - 35.0 33.0 2 1.0 2.60 G

DK LP 0.8 ± 0.05 8.0 - 33.0 33.0 2 1.0 2.60 4

Ø d

Ø B

Ø D

SMAX.

Ø B

LEAD BENDING STYLE = DK SP

(Double Kink Small Pitch)

LEAD BENDING STYLE = DK LP

(Double Kink Large Pitch)

LEAD BENDING STYLE

= EK (Single Kink)

Ø B

Ø d Ø d

AC, AC-AT

www.vishay.com Vishay Draloric

Revision: 11-Jul-2018 11 Document Number: 28730

For technical questions, contact: ww1resistors@vishay.com

THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT

ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000

AC01 WITH RADIAL TAPING

LEAD BENDING STYLE = RT (Radial Taped)

AC03 WITH RADIAL TAPING

LEAD BENDING STYLE = RT (Radial Taped)

Z-FORM LEADS FOR SMD MOUNTING in millimeters

LEAD BENDING STYLE = WSZ

(Z-form)

TYPE WSZ Ø d Ø Dmax. ALFHEab l

AC03, AC03-AT 0.8 4.8 17 ± 0.3 11 - 12 4.8 ± 0.2 3.6 ± 0.2 5.0 ± 0.4 2.5 5.5 14.5

Solder pad dimensions

Ø D

Ø d

DIMENSIONS in millimeters

Pitch of components P 12.7 ± 1.0

Lead spacing F 5.0 + 0.6, - 0.1

Width of carrier tape W 18.0 ± 0.5

Height for cutting (max.) L1 11

Height for insertion (max.) H1 32

DIMENSIONS in millimeters

Pitch of components P 12.7 ± 1.0

Lead spacing F 5.0 + 0.4, - 0.2

Width of carrier tape W 18.0 ± 0.5

Height for cutting (max.) L1 11

Height for insertion (max.) H1 32

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Revision: 08-Feb-17 1Document Number: 91000

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