NTC thermistors for
temperature measurement
Glass-encapsulated sensors,
standard type
Series/Type:
Date:
B57560G, B57560G1
March 2013
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information contained therein without EPCOS' prior express consent is prohibited.
Temperature measurement
Glass-encapsulated sensors
B57560G, B57560G1
G560/G1560
Applications
Temperature measurement
Features
Glass-encapsulated, heat-resistive and
highly stable
For temperature measurement up to
300
°C
Leads: dumet wires (copper-clad FeNi)
Options
Leads: nickel-plated dumet wires
Alternative dimensions available on request
Delivery mode
Bulk
Dimensional drawing
Dimensions in mm
Approx. weight 120 mg
General technical data
Climatic category
Max. power
Resistance tolerance
Rated temperature
Dissipation factor
Thermal cooling time constant
Heat capacity
(IEC 60068-1)
(at 25
°C)
55/300/56
50
±1, ±2, ±3
25
approx. 1.3
approx. 15
approx. 20
(in air)
(in air)
P
25
∆R
R
/R
R
T
R
δ
th
τ
c
C
th
mW
%
°C
mW/K
s
mJ/K
Please read
Cautions and warnings
and
Important notes
at the end of this document.
Page 2 of 22
Temperature measurement
Glass-encapsulated sensors
B57560G, B57560G1
G560/G1560
Electrical specification and ordering codes
R
25
Ω
2k
2k
5k
5k
10 k
10 k
10 k
10 k
30 k
30 k
100 k
100 k
No. of R/T
characteristic
8401
8401
8328
8328
7003
7003
8307
8307
7002
7002
8304
8304
B
25/85
K
3420
3420
3483
3483
3612
3612
3478
3478
3973
3973
4072
4072
B
0/100
K
3390
±1%
3390
±1%
3456
3456
3586
3586
3450
3450
3944
3944
4036
4036
B
25/100
K
3436
3436
3497
±1%
3497
±1%
3625
±1%
3625
±1%
3492
±1%
3492
±1%
3988
±1%
3988
±1%
4092
±1%
4092
±1%
Ordering code
B57560G0202+000
B57560G0202+002
B57560G1502+000
B57560G1502+002
B57560G1103+005
B57560G1103+007
B57560G1103+000
B57560G1103+002
B57560G1303+005
B57560G1303+007
B57560G1104+000
B57560G1104+002
+ = Resistance tolerance
F =
±1%
G =
±2%
H =
±3%
The last three digits of the ordering code denote:
000 and 005 = dumet wires
002 and 007 = nickel-plated wires
Note
For ordering code B57560G0202+000 and B57560G0202+002 the R/T curve is defined for short
wire length (5 mm). In dependence of the real wire length of the glass-encapsulated sensor the
wire resistance can be considered for temperatures higher than 100
°C
additionally with following
equation:
Please read
Cautions and warnings
and
Important notes
at the end of this document.
Page 3 of 22
Temperature measurement
Glass-encapsulated sensors
B57560G, B57560G1
G560/G1560
Reliability data
Test
Storage in
dry heat
Standard
IEC
60068-2-2
Test conditions
∆R
25
/R
25
(typical)
< 3%
Remarks
No visible
damage
Storage in damp
heat, steady state
Rapid temperature
cycling
Storage at upper
category temperature
T: 300
°C
t: 1000 h
IEC
Temperature of air: 85
°C
60068-2-67 Relative humidity of air: 85%
Duration: 1000 h
IEC
Lower test temperature: 55
°C
60068-2-14 Upper test temperature: 200
°C
Number of cycles: 1000
< 2%
No visible
damage
No visible
damage
< 2%
Please read
Cautions and warnings
and
Important notes
at the end of this document.
Page 4 of 22
Temperature measurement
Glass-encapsulated sensors
B57560G, B57560G1
G560/G1560
Reliability data according to AEC Q200, Rev. D
Test
High temperature
exposure (storage)
Operational life
Standard
MIL-STD-202,
method 108
MIL-STD-202,
method 108
Test conditions
∆R
25
/R
25
(typical)
< 2%
< 2%
Remarks
No visible
damage
No visible
damage
No visible
damage
Temperature
cycling
Terminal strength
(leaded)
Mechanical shock
Storage at T = +125
°C
t = 1000 h
1000 h / +125
°C
Test voltage max. 0.3 V DC on
NTC
1)
JESD 22,
Lower test temperature: 55
°C
method JA-104 Upper test temperature: 125
°C
1000 cycles
Dwell time: max. 30 min at each
temperature
Transition time in air: max. 1 min
MIL-STD-202, Test leaded device integrity
method 211
Condition A: 2.27 N
2)
MIL-STD-202,
method 213,
condition C
MIL-STD-202,
method 204
Acceleration: 40
g
2)
Pulse duration: 6 ms
Number of bumps: 3, each
direction
Acceleration: 5
g
t = 20 min
12 cycles in each of 3 directions
Frequency range: 10 to 2000 Hz
< 2%
< 1%
< 1%
No visible
damage
No visible
damage
Vibration
< 1%
No visible
damage
1) Self heating of the NTC thermistor must not exceed 0.2 K, steady state. Test conditions deviating from AEC Q200, Rev. D.
2) Deviating from AEC Q200, Rev. D.
Note
Contact of NTC thermistors with any liquids and solvents shall be prevented. It must be
ensured that no water enters the NTC thermistors (e.g. through plug terminals).
Avoid dewing and condensation unless thermistor is specified for these conditions.
Please read
Cautions and warnings
and
Important notes
at the end of this document.
Page 5 of 22
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