Product – Specification
TYPE 3613C SERIES
1
st
April 2003
ISSUE 5
Moulded Chip Inductor 18:12
TYPE 3613C SERIES
KEY FEATURES
Specially developed for automatic mounting
applications, this exciting range of chip
inductors are ferrite based and sealed in a
thermoset plastic body. They employ solder
coated copper terminations with barrier layer.
Customers can therefore expect consistent
quality, performance and reliability. Its smooth
top surface makes it particularly well suited to
pick and place equipments.
Truly the last word in 1812 chip inductors.
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High Reliability
Two Versatile Types
Small Versatile Size - 3.2 x 4.5 mm
Temperature Range -25°C to +100°C
Supplied in Standard Carrier Tape
Suitable for Dip and Wave Solder
Insulation 1000M R min
Available from Stock
STOCKISTS:
This product is available from Farnell.
Telephone Tyco Passive Product Support Team ++ 44 (0) 1793 572484
Page 1 of 4
Website – www.resistors.tycoelectronics.com
Email – passivesales@tycoelectronics.com
Product – Specification
TYPE 3613C SERIES
DIMENSIONS
1
st
April 2003
ISSUE 5
PACKAGING (REEL)
PACKAGING (TAPE)
ENVIRONMENTAL
Insulation:
Temperature Range:
Humidity Load life:
Vibration (see test method):
1000 M ohms
-25°C to +85°C
∆L/L
within ± 10%
∆L/L
within ± 5%
TEST NOTES
The measuring method for the test data given overpage are as follows:
Inductance: Direct reading from Q-meter (equivalent to YHP 4342A, jig used)
Q: Direct reading from Q-meter (equivalent to YHP 4342A, jig used)
Self resonant frequency: Grid Dipo Meter (equivalent to Measurement M159)
DC resistance: Wheatstone bridge (equivalent to YEW 2755)
Unless otherwise specified, the temperature is 20°C ± 5°C and the humidity is 65% ± 20%
HOW TO ORDER
Telephone Tyco Passive Product Support Team ++ 44 (0) 1793 572484
Page 3 of 4
Website – www.resistors.tycoelectronics.com
Email – passivesales@tycoelectronics.com
Product – Specification
TYPE 3613C SERIES
TEST METHODS
ITEM
DC SUPERPOSITION
CHARACTERISTICS
TEMPERATURE
RISE
TEMPERATURE
RISE
OVERCURRENT
TEST
SOLDERING HEAT
RESISTANCE TEST
SOLDERABILITY
INSULATION
RESISTANCE
TENSILE
STRENGTH TEST
STRESS TEST
DROP TEST
VIBRATION TEST
HUMIDITY RESISTANCE
LOAD TEST
LOW TEMPERATURE
RESISTANCE TEST
TEMPERATURE
CYCLE TEST
HIGH TEMPERATURE
RESISTANCE
LOAD TEST
1
st
April 2003
ISSUE 5
STANDARD
∆L/L
Within -10%
TEST METHOD
When the allowable current was applied, the inductance was
measured with a YHP 4262A and compared with the initial
value.
When the allowable current was applied, the amount of
temperature rise was measured by the change in resistance.
Measurements were taken in a temperature range of -25°C to
85°C and the value at +20°C was used as the standard value.
Twice the allowable current was applied for a period of five
minutes.
Immersion twice for a period of 5 ± 0.5 seconds in H63A
solder at a temperature 260°C ± 5°C
Immersion for a period of 2 ± 0.5 seconds in H63A solder at a
temperature of 230 ± 5°C. Flux used was a rosin-core solution
containing approximately 25% methanol.
0.3mm diameter copper wires were wound around the coils
three times and measurements were taken after 250VDC was
applied between the wire and the terminals for a period of 1
minute.
After the inductors were soldered to substrates, a force of
1.0kg was applied in both the x and y directions for a period
of 5 seconds.
After the inductors were mounted on substrates, 1-mins. 10-
55-10 cycle per seconds sweeps 1.5mm stroke vibrations were
applied for 2 hrs. each in the X, Y and Z directions
The inductors were dropped 10 times from a height of 1.0
metre onto a concrete floor.
After the inductors were mounted on substrates, 1-mins. 10-
55-10 cycle per seconds sweeps 1.5mm stroke vibrations were
applied for 2 hours each in the X, Y and Z directions
Measurements were taken after the allowable current was
applied while the inductors were stored at 60°C ± 2°C in 90 to
95% RH for a period of 500 hours.
Measurements were taken after the inductors were stored at -
40°C ± 2°C for period 1000 hours
Measurements were taken after the inductors were stored for
30 minutes, during which they were subjected to 20
temperature cycles of between -25°C and +85°C.
Measurements were taken after the allowable was applied
while the inductors were stored at 85°C for a period of 1000
hours.
Within 20°C
∆L/L
Within ± 5%
No smoke and no fire
No pronounced abnormality
in appearance
Not less than 90% bonding to
electrode surfaces
Not less than 1000 M
No separation from substrate
No breakage
No pronounced abnormality in appearance
∆L/L
Within ± 10%
Q Not less than 30
∆L/L
Within ± 10%
Q Not less than 30
∆L/L
Within ± 10%
Q Not less than 30
∆L/L
Within ± 10%
Q Not less than 30
∆L/L
Within ± 10%
Q Not less than 30
This publication is issued to provide outline information only and (unless specifically agreed to the contrary by the Company in writing) is not to form part of any order or be
regarded as a representation relating to the products or service concerned. We reserve the right to alter without notice the specification, design, price or conditions of
supply of any product or service. Whilst Tyco Electronics Components products are of the very highest quality and reliability, all electronic components can occasionally
be subject to failure. Where failure of a Tyco Electronics Components product could result in life threatening consequences, then the circuit and application must
be discussed with the Company. Such areas might include ECG, respiratory and other medical and nuclear applications and any non fail-safe applications circuit.
Telephone Tyco Passive Product Support Team ++ 44 (0) 1793 572484
Page 4 of 4
Website – www.resistors.tycoelectronics.com
Email – passivesales@tycoelectronics.com
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