TT CC1-6K8KB12 Carbon composition resistor Datasheet

Resistors
Carbon Composition Resistors
CC Series
Hot moulded carbon composition
High pulse voltage and energy capability
Non-inductive
All parts are Pb-free and comply with EU Directive 2011/65/EU (RoHS2)
Electrical Data
CC1
CC2
Power rating at 25°C
watts
1
2
Resistance range
ohms
100R – 50K
Maximum pulse voltage
volts
TCR (20 to 70°C)
ppm/ °C
Resistance Tolerance
100R – 10K
See pulse graphs
< ±1000
%
10 or 20 *
Standard Values
E12
Ambient temperature range
°C
Thermal Impedance
-55 to 125
°C/watt
51
28
* Tolerance applies to date of manufacture. As in all carbon composition parts value drift in storage is possible. This is typically ±3% in one year and ±5% in 2 years.
Physical Data
Dimensions (mm) & Weight (g)
Type
L
D
d
f
Wt. nom.
CC1
15 +1.5/-0.5
6 +0.2/-0.1
0.8 ±0.05
28 ±1
1.1
CC2
18 +1.5/-0.5
8 +0.2/-0.1
1.0 ±0.05
28 ±1
2.4
Construction
CC series resistors are produced using a hot moulded
carbon composition material which is varied to produce
the required resistance value. The leads are moulded
into the resistor. Finally these are coated and band
marked.
Marking
CC series resistors are colour coded. Resistors with 20% tolerance
have three bands indicating value, and resistors with 10%
tolerance have four bands indicating value and tolerance in
accordance with IEC62.
Solvent Resistance
The body protection and marking are resistant to all normal
industrial cleaning solvents suitable for printed circuits.
General Note
TT Electronics reserves the right to make changes in product specification without notice or liability.
All information is subject to TT Electronics’ own data and is considered accurate at time of going to print.
BI Technologies IRC Welwyn
www.ttelectronics.com/resistors
© TT Electronics plc
07.14
Carbon Composition Resistors
CC Series
Performance Data
Typical
Load at rated power 1000hrs @ 25°C
±ΔR%
8
Dry heat 1000hrs @ 125°C
±ΔR%
8
Long Pulse 100ms at 60 x Rated Power
±ΔR%
2
Short term overload 2s at 6.25 x Rated Power
±ΔR%
2
Derating from rated power @ 25°C
Zero at 125°C
Climatic sequence
±ΔR%
8
Vibration
±ΔR%
2
Temperature rapid change
±ΔR%
2
Resistance to solder heat
±ΔR%
2
V
500V
Isolation voltage
Pulse Performance
The graphs below show the value changes resulting from applying multiple pulses of increasing peak voltage. The pulse shape was
1.2/50μS as defined in IEC 6100-4-5 / ANSI C62.41. The highest voltage plotted on each graph represents the maximum peak voltage for
that resistance value.
CC1 1K0
120%
100%
80%
60%
40%
20%
0%
MEAN
0
Resistance Value
(Normalised)
Resistance Value
(Normalised)
CC1 240R
120%
100%
80%
60%
40%
20%
0%
10
20
1.2/50 PeakVoltage /kV
MEAN
MIN
MAX
Resistance Value
(Normalised)
Resistance Value
(Normalised)
MAX
CC1 15K
120%
100%
80%
60%
40%
20%
0%
10
MIN
0
10
20
1.2/50 PeakVoltage /kV
CCR1-2K2
CC1 & CC2 2K2
0
MEAN
120%
100%
80%
60%
40%
20%
0%
20
1.2/50 PeakVoltage /kV
General Note
TT Electronics reserves the right to make changes in product specification without notice or liability.
All information is subject to TT Electronics’ own data and is considered accurate at time of going to print.
MEAN
MIN
MAX
0
10
20
1.2/50 PeakVoltage /kV
BI Technologies IRC Welwyn
www.ttelectronics.com/resistors
© TT Electronics plc
07.14
Carbon Composition Resistors
CC Series
Packaging
Parts are supplied as standard loose packed in boxes. Quantity per box: 2400 (CC1) & 1200 (CC2). CC1 can be supplied by special request
tape packed as shown and on a reel. Quantity per reel: 960.
Ordering Procedure
Example: CC1 at 6.8 kilohms and 10% tolerance in a bulk pack box of 2400 pieces C C 1- 6 K 8
K
B24
Type
Value (use IEC62 code)
Tolerance (use IEC62 code)
K
10%
M
20%
Packing
B24
B12
T096
Bulk
Tape
CC1
2400/box
CC2
1200/box
CC1
960/reel
Standard
Non-Standard
General Note
TT Electronics reserves the right to make changes in product specification without notice or liability.
All information is subject to TT Electronics’ own data and is considered accurate at time of going to print.
BI Technologies IRC Welwyn
www.ttelectronics.com/resistors
© TT Electronics plc
07.14
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