Rev Date: 06/19/2012 2 www.seielect.com
This specification may be changed at any time without prior notice marketing@seielect.com
Please confirm technical specifications before you order and/or use.
RNV Series
High Voltage Anti-moisture Metal Film Resistor
Stackpole Electronics, Inc.
Resistive Product Solutions
Solvent Resistance No serious scratches on the insulating surface Resistor was dipped into solvent for 5 ± 0.5 minutes
Temperature Coefficient
Resistance (TCR) Within ±200ppm/ºC
Measured resistance (R
0
ohm) at room temperature (t ºC) then
measured again at 100ºC higher than room temperature
ppm/ºC = (R-R
0
)/R
0
X 10
6
/{(T + 100)-t}
Overload (short time) Resistance variation within ±(1% + 0.05 ohm)
Applied DC voltage 2.5 times the rated voltage for 5 seconds ON,
45 seconds OFF. Repeated cycle 10 times. Maximum Overload
voltage is not more than 2 x Max Working Voltage
Voltage Proof Resistance variation within ±(0.5% + 0.05 ohm)
Resistor was clamped in the through of a 90ºC metallic V-block and
was tested at provided AC potential voltage for 1 minute.
Test voltage: max overload voltage. Test voltage: 500V (AC)
Vibration Resistance variation within ±(0.5% + 0.05 ohm)
Applied 1.5mm amplitude vibration to two directions, perpendicular to
each other, for 6 hours each. Total 12 hours.
Vibrating frequency is 10HZ - 2000HZ - 10HZ cycle in 20 minutes.
Repeat cycle.
Insulation Resistance 10
4
M ohm or more Resistor was clamped in the through of a 90ºC metallic V-block at DC
100V for 1 minute
Robustness of
Terminations
Resistance variation within ±(0.5% + 0.05 ohm)
and no mechanical damage
Tensile test: The body of the part is fixed. The tensile force was
applied gradually up to 10N. Twist test: Terminal lead was rotated
360º of the original axis of the bent terminal, alternating direction for 3
rotations.
Resistance to Soldering
Heat No mechanical and electrical deterioration
Resistance to wave soldering condition:
Temperature/Time-Profile in accordance to the CECC00802.
Max Temperature/Time: 260ºC, 10 seconds
Solderability More than 95% of the lead surface was covered by
new solder after the leads were dipped in the solder
Dipped the lead into a solder bath (temperature 245ºC ± 5ºC) up to 4
± 0.8mm from the resistor body and held for 5 ± 0.5 seconds.
Rapid Change of
Temperature Resistance variation within ±(0.5% + 0.05 ohm) Test: -55ºC for 30 min., 25ºC for 30 sec., 155ºC for 30 min. 25ºC for
30 sec. Resistance changed after continuous 5 cycles.
Damp Heat Resistance variation within ±(1.5% + 0.05 ohm)
Temperature 40ºC ± 2ºC, relative humidity 90~95%, inside bath for
1.5 hour and shut voltage 0.5 hour. Repeated cycle for 1,000 hours.
Room temperature for 1 hour after test, then measured
Endurance at 70ºC Resistance variation within ±(1.5% + 0.05 ohm)
In constant temperature chamber 70ºC ± 2ºC, applied rated DC
voltage for 1.5 hour and shut voltage for 0.5 hour.
Cycle repeated for 1,000 hours.
Cold Resistance Resistance variation within ±(1.5% + 0.05 ohm)
Resistor was put into a bath at fixed temp of -55ºC ± 3ºC for 2 hours.
After measured, left at room temp for 1 hour,
then measured again.
Heat Resistance Resistance variation within ±(1.5% + 0.05 ohm)
Resistor was put into a bath at fixed temp of 155ºC ± 3ºC for 16
hours. After measured, left at room temp for 1 hour,
then measured again.
High Voltage Surge Test Resistance variation within ±(1% + 0.05 ohm)
In accordance with IEC60065.14.1, 50 discharges from a 1nF
capacitor charged to Vmax; Figure 2. 12 discharges/minute
Operating Temperature Range: -55ºC to +155ºC
PerformanceItem Test Method
4
100
Rx (MΩ)
10.1 10
7
6
5
0.01
10
9
8
Vmax (kV)
Performance Characteristics