TNPVE3 Datasheet, PDF(1/9 Page) Vishay Siliconix – High Voltage Thin Film Flat Chip Resistors

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TNPVE3 Datasheet, PDF (1/9 Pages) Vishay Siliconix – High Voltage Thin Film Flat Chip Resistors

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TNPV e3

Vishay Draloric

High Voltage Thin Film Flat Chip Resistors

TNPV e3 precision thin film flat chip resistors are the perfect

choice for most fields of modern electronics where the

highest reliability and stability at high operating voltages are

of major concern. Typical applications include industrial and

automotive inverters, voltage measurement systems as

implemented in battery management systems, and test and

measuring equipment.

FEATURES

â¢ High operating voltage Umax. up to 1000 V

â¢ Low voltage coefficient < 1 ppm/V

â¢ Excellent overall stability at different

environmental conditions â¤ 0.05 % ï

(1000 h rated power at 70 Â°C)

â¢ Superior moisture resistivity (85 Â°C; 85 % RH)

â¢ AEC-Q200 qualification under preparation

â¢ Sulfur resistance verified according to ASTM B 809

â¢ Material categorization: for definitions of compliance

please see www.vishay.com/doc?99912

APPLICATIONS

â¢ Industrial and automotive inverters

â¢ Battery management system

â¢ Test and measuring equipmentï

TECHNICAL SPECIFICATIONS

DESCRIPTION

TNPV1206 e3

TNPV1210 e3

Imperial size

1206

1210 (1)

Metric size code

RR3216M

RR3225M (1)

Resistance range

160 kï to 2 Mï

121 kï to 3.01 Mï

Resistance tolerance

Â± 1 %; Â± 0.5 %; Â± 0.1 %

Temperature coefficient

Â± 50 ppm/K; Â± 25 ppm/K; Â± 15 ppm/K; Â± 10 ppm/K

Voltage coefficient |c|

< 1 ppm/V

Rated dissipation, P70 (2)

Maximum operating voltage, Umax. ACRMS

or DC (3)

0.25 W

700 V

0.33 W

1000 V

Permissible film temperature, ïF max. (2)

Operating temperature range

155 Â°C

-55 Â°C to 125 Â°C (155 Â°C)

Notes

(1) Size not specified in EN 140401-801.

(2) Please refer to APPLICATION INFORMATION below.

(3) Application-specific safety requirements may set limitations to the applicability of the specified voltage.

APPLICATION INFORMATION

The power dissipation on the resistor generates a temperature rise against the local ambient, depending on the heat flow

support of the printed circuit board (thermal resistance). The rated dissipation applies only if the permitted film temperature is

not exceeded. Furthermore, a high level of ambient temperature or of power dissipation may raise the temperature of the solder

joint, hence special solder alloys or board materials may be required to maintain the reliability of the assembly.

These resistors do not feature a lifetime limitation when operated within the limits of rated dissipation, permissible operating

voltage, and permissible film temperature. However, the resistance typically increases due to the resistor's film temperature

over operating time, generally known as drift. The drift may exceed the stability requirements of an individual application circuit

and thereby limits the functional lifetime. The designer may estimate the performance of the particular resistor application or set

certain load and temperature limits in order to maintain a desired stability.

Revision: 24-Apr-15

Document Number: 28881

For technical questions, contact: thinfilmchip@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

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