Please read rating and
!CAUTION
(for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
!Note
•Please read rating and
!CAUTION
(for storage, operating, rating, soldering, mounting and handling) in this PDF catalog to prevent smoking and/or burning, etc.
•This catalog has only typical specifications. Therefore,thereareno space for detailed specifications. Therefore, please approve our productsheet for product specificaions approval sheet for product specifications before ordering.
This catalog has only typical specifications because you is requested to approve our product specifications or to transact the approval specifications or transact the before ordering.
R90E5.pdf 03.3.4
POSISTORr for Circuit Protection
for Overcurrent Protection 6V Series
D max.
T max.
Smaller size and lower resistance by new raw material
having low resistivity. Smaller size can provide
faster operating time. Smaller voltage drop when
voltage is applied to this PTC and excellent heat
resistance due to ceramic construction. Initial
resistance will not be changed by soldering heat or
self heating during overcurrent protection. In
addition, resistance of "POSISTOR" during operation is
large and it will return to initial low value when
abnormality to removed.
2
D max.
φd±0.05
F±1.5
s
Features
1. Best suited to meet the requirements for power
supply circuits. Error-free operation is assured
by rush current.
2. Circuit is protected until current is turned off.
3. Restores the original low resistance value
automatically once the overload is removed.
4. Non-contact design leads to long life and no noise.
s
Applications
1. Overcurrent protection (countermeasure for short
circuit) of USB power supply circuit in Personal
Computers and peripherals.
2. Overcurrent protection of low voltage circuit
(countermeasure for short circuit test of safety
standard).
Max.
Non-operating
Operating
Max.
Voltage Current at +60°C Current at -10°C Current
(Vdc)
(mA)
(mA)
(A)
6
6
6
430
530
700
1400
1750
2230
10
10
10
Resistance
(at 25°C)
(ohm)
0.22
±30%
0.15
±30%
Curie
Point
(°C)
90 (BC)
90 (BC)
Body
Thickness
Diameter (D)
(T)
(mm)
(mm)
6.5
7.5
8.5
3.0
3.0
3.0
Lead
Space (F)
(mm)
5.0
5.0
5.0
Lead
Diameter
(phi d)(mm)
0.5
0.5
0.5
Part Number
PTGLS5BCR22N1N53B0
PTGLS6BCR15N1N53B0
PTGLS7BC0R1Q1N53B0
0.10 +40/-20% 90 (BC)
Maximum Current shows typical capacities of the transformer which can be used.
The order quantity should be an integral multiple of the "Minimum Quantity" shown in the "Package" page.
Taping type is also available.
s
Protective Threshold Current Range
PTGLS5BCR22N1N53B0
1600
1400
1200
1000
Protective threshold current range
800
600
400
200
0
−20
2000
1800
1600
Trip current
Current (mA)
1400
1200
Protective threshold current range
1000
800
600
Non-operating current
400
200
−10
0
10
20
30
40
50
60
70
0
−20
−10
0
10
20
30
40
50
60
70
Non-operating current
Trip current
PTGLS6BCR15N1N53B0
Current (mA)
Ambient temperature (˚C)
Ambient temperature (˚C)
Continued on the following page.
13
Please read rating and
!CAUTION
(for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
!Note
•Please read rating and
!CAUTION
(for storage, operating, rating, soldering, mounting and handling) in this PDF catalog to prevent smoking and/or burning, etc.
•This catalog has only typical specifications. Therefore,thereareno space for detailed specifications. Therefore, please approve our productsheet for product specificaions approval sheet for product specifications before ordering.
This catalog has only typical specifications because you is requested to approve our product specifications or to transact the approval specifications or transact the before ordering.
R90E5.pdf 03.3.4
Continued from the preceding page.
s
Protective Threshold Current Range
PTGLS7BC0R1Q1N53B0
2400
2200
2000
1800
1600
Current (mA)
1400
1200
1000
800
600
Non-operating current
400
200
0
−20
−10
0
10
20
30
40
50
60
70
Protective threshold current range
Trip current
2
Ambient temperature (˚C)
s
Operating Time (Typical Curve)
PTGLS5BCR22N1N53B0
30
30
PTGLS6BCR15N1N53B0
25
25
Operating time (sec.)
Operating time (sec.)
20
20
15
W25°C
Ambient Temp.
15
W25°C
Ambient Temp.
10
10
5
5
0
0
2
4
6
8
10
0
0
2
4
6
8
10
Overcurrent (A)
Overcurrent (A)
PTGLS7BC0R1Q1N53B0
30
25
Operating time (sec.)
20
W25°C
Ambient Temp.
15
10
5
0
0
2
4
6
8
10
Overcurrent (A)
14
Please read rating and
!CAUTION
(for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
!Note
•Please read rating and
!CAUTION
(for storage, operating, rating, soldering, mounting and handling) in this PDF catalog to prevent smoking and/or burning, etc.
•This catalog has only typical specifications. Therefore,thereareno space for detailed specifications. Therefore, please approve our productsheet for product specificaions approval sheet for product specifications before ordering.
This catalog has only typical specifications because you is requested to approve our product specifications or to transact the approval specifications or transact the before ordering.
R90E5.pdf 03.3.4
PTGL Series Specifications and Test Methods
Item
Continuous Operating
Temperature
Rating value
-10 degree to +60 degree
Method of examination
The temperature range with maximum voltage applied to the
POSISTORr.
Resistance value is measured by applying voltage under
1.5Vdc (by a direct current of less than 10mA) at 25°C.
(But it must be measured after maximum voltage is applied for
180 seconds and then is left for 2 hours at 25°C.)
As for 6V and 16V series, measurement probe should be con-
nected on the lead wire at the point within 2mm from the below
side of the forming. Resistance should be measured 4 wing
method.
We apply AC voltage 120% (110% for 6V series) that of the
maximum voltage to POSISTORr by raising voltage gradually
for 180±5 seconds at 25°C. (A protective resistor is to be
conected in series, and the inrush current through POSISTORr
must be limited below max. rated value.)
The load is gradually applied to each terminal of POSISTORr
until the force of the following table in the axial direction with
fixing POSISTORr's body itself and this load is being kept for
10 seconds.
Lead Diameter
ø0.60mm max.
ø0.65mm max.
Force
4.90 N
9.80 N
Resistance (R25)
Satisfies ratings
Withstanding Voltage
No problem
Tensil Strength of
Lead Wire Terminal
No damage
Bending Strength of
Lead Wire Terminal
Lead wire does not come off
POSISTORr is held so that it is perpendiculer to the lead wire
with the following lead hanging in the axial direction of the lead
wire. The lead wire is slowly bent toward 90° and returned.
Then it is slowly bent in the opposite direction and returned to
original state.
Lead Diameter
ø0.60mm max.
ø0.65mm max.
Force
2.45 N
4.90 N
Solderability
Solder is applied around the lead wire covering 3/4 or more of
the circumference without gap in the axial direction.
The Lead wire of POSISTORr is soaked in a Isopropyl
alchohol (JIS K 8839) solution (about 25wt%) of colophony (JIS
K 5902) for 5 to 10 sec. And, each lead wire is soaked in
Molten solder (JIS Z 3282 H60A) at 235±5°C from the bottom
to a point of 2.0 to 2.5mm for 2±0.5 sec.
The lead wire of POSISTORr is soaked in Molten solder (JIS Z
3282 H60A) at 350±10°C from the bottom to a point of 2.0 to
2.5mm for 3.5±0.5 sec. And, after the device is being left at
room temperature (25°C) for 24±4 hours, the resistance is
measured.
POSISTORr is set in an environmental chamber at 40±2°C
and 90 to 95% humidity for 500±4 hours. And after the device
is being left at room temperature (25°C) for one hour, the resis-
tance measurement is performed.
POSISTORr is set in an environmental chamber at 60±3°C
with maximum voltage applied for 1.5 hours and then is left
without voltage applied for 0.5 hours. This cycle is repeatedfor
1000±10 hours, and after the device is left at room temperature
(25°C) for one hour, the resistance measurement is performed.
(A protective resistor is to be connected in sereis and the
inrush current through POSISTORr must be limited below
max. rated value.)
Terminal Durability
of Soldering
∆R/R
25
<
±15%
=
7
Humidity Test
∆R/R
25
<
±20%
=
Load Cycle Test at
High Temperature
∆R/R
25
<
±20%
=
48
Discrete Device
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