RNV Series
High Voltage Anti-moisture Metal Film Resistor
Features:
•
•
•
Stackpole Electronics, Inc.
Resistive Product Solutions
High voltage surge handling per IEC 60065.14.1, up to 7KV
High tolerance to prolonged exposure to temperature and
humidity stress
Ideal for applications requiring high stability, reliability and voltage
handling; including power inverters, AC adapters and switching
power supplies
Electrical Specifications
Type / Code
RNV14
Power Rating
(Watts) @ 70ºC
0.25W
Maximum
Working Voltage
1600V (DC
1150V (RMS)
Maximum
Overload Voltage
3200V (DC)
2300V (RMS)
Resistance Temperature
Coefficient
±200 ppm/ºC
Ohmic Range (Ω) and Tolerance
1% and 5%
100K - 15M
Mechanical Specifications
Type / Code
RNV14
L
0.236 ± 0.012
6.00 ± 0.30
D
0.094 ± 0.008
2.40 ± 0.20
d
0.022 ± 0.002
0.55 ± 0.05
H
1.102 ± 0.012
28.00 ± 0.30
Unit
inches
mm
Power Derating Curve:
Percent Rated Power (%)
100
80
60
40
20
-55ºC
70ºC
155ºC
0
-60
-40
-20
0
20
40
60
80
100
Ambient Temperature (ºC)
120
140
160
180
How to Order
1
2
3
4
5
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8
9
10
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12
R
N
V
1
4
F
T
L
1
0
0
K
Product Series
High Voltage
RNV
Metal Film
Size
14
Power
0.25W
Tolerance
Code
Tol
F
1%
J
5%
Code
A
T
Packaging
Description
Tape Box (52mm)
Tape and Reel
Size
14
Quantity
2,000
5,000
TCR
Code ppm
L
200
Resistance Value
Four characters with
the multiplier used as
the decimal holder.
100 Kohm = 100K
1 Mohm = 1M00
15 Mohm = 15M0
Rev Date: 06/19/2012
This specification may be changed at any time without prior notice
Please confirm technical specifications before you order and/or use.
1
www.seielect.com
marketing@seielect.com
RNV Series
High Voltage Anti-moisture Metal Film Resistor
Stackpole Electronics, Inc.
Resistive Product Solutions
Performance Characteristics
Item
Solvent Resistance
Temperature Coefficient
Resistance (TCR)
Performance
No serious scratches on the insulating surface
Within ±200ppm/ºC
Test Method
Resistor was dipped into solvent for 5 ± 0.5 minutes
Measured resistance (R
0
ohm) at room temperature (t ºC) then
measured again at 100ºC higher than room temperature
6
ppm/ºC = (R-R
0
)/R
0
X 10 /{(T + 100)-t}
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
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)
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.
Resistor was clamped in the through of a 90ºC metallic V-block at DC
100V for 1 minute
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 wave soldering condition:
Temperature/Time-Profile in accordance to the CECC00802.
Max Temperature/Time: 260ºC, 10 seconds
Overload (short time)
Resistance variation within ±(1% + 0.05 ohm)
Voltage Proof
Resistance variation within ±(0.5% + 0.05 ohm)
Vibration
Resistance variation within ±(0.5% + 0.05 ohm)
Insulation Resistance
10 M ohm or more
4
Robustness of
Terminations
Resistance to Soldering
Heat
Solderability
Rapid Change of
Temperature
Damp Heat
Resistance variation within ±(0.5% + 0.05 ohm)
and no mechanical damage
No mechanical and electrical deterioration
More than 95% of the lead surface was covered by Dipped the lead into a solder bath (temperature 245ºC ± 5ºC) up to 4
new solder after the leads were dipped in the solder
± 0.8mm from the resistor body and held for 5 ± 0.5 seconds.
Resistance variation within ±(0.5% + 0.05 ohm)
Resistance variation within ±(1.5% + 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.
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
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.
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.
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.
In accordance with IEC60065.14.1, 50 discharges from a 1nF
capacitor charged to Vmax; Figure 2. 12 discharges/minute
10
9
Vmax (kV)
8
7
6
5
4
0.01
0.1
1
Rx (MΩ)
10
100
Endurance at 70ºC
Resistance variation within ±(1.5% + 0.05 ohm)
Cold Resistance
Resistance variation within ±(1.5% + 0.05 ohm)
Heat Resistance
Resistance variation within ±(1.5% + 0.05 ohm)
High Voltage Surge Test
Resistance variation within ±(1% + 0.05 ohm)
Operating Temperature Range: -55ºC to +155ºC
Rev Date: 06/19/2012
This specification may be changed at any time without prior notice
Please confirm technical specifications before you order and/or use.
2
www.seielect.com
marketing@seielect.com
