G4A01167C THERMODISC, G4A01167C Datasheet - Page 15

FUSE, THERMAL, 167°C, 10A, 250V

G4A01167C

Manufacturer Part Number
G4A01167C
Description
FUSE, THERMAL, 167°C, 10A, 250V
Manufacturer
THERMODISC
Series
MICROTEMPr
Datasheet

Specifications of G4A01167C

Voltage Rating Vac
250V
Fuse Current
10A
Fuse Terminals
Ferrule
Functioning Temperature
167°C
Holding Temperature
142°C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Splices & Terminals
Insecure splices and terminations may produce high resistance junctions which can cause self
heating (I
Heat from these hot spots can flow down the thermal cutoff leads and increase the temperature
of the thermal cutoff (see figure 13). Nuisance openings of the thermal cutoffs or degradation of
the epoxy seal can occur as a result of the heat generated by high resistance junctions. The splice
or termination junction may initially measure low resistance, but can change to a much higher
resistance after several temperature cycles. It is generally better to splice MICROTEMP
cutoff leads to stranded lead wires rather than solid wires as the stranded wire may be crimped
tighter and maintain better electrical contact during temperature cycling.
The temperature capabilities of the splice and/or termination should be considered. For example,
solder back-up should be considered for splices of terminations in applications cycled at temperatures
exceeding 150°C.
Bending Leads
When configuring leads, special care must be exercised in supporting the leads at each end near
the body of the thermal cutoff so that the case will not be distorted or the epoxy will not be
cracked or broken. At least 0.125” (3mm) should be maintained between the epoxy seal and any
lead bends (see figure 14).
2
R) as power is dissipated across these junctions during product operation.
SPLICE
TERMINATION
HEAT FLOW
SPLICE
Figure 13
SPLICE
HEAT FLOW
NUT
BOLT
®
LOCK
WASHER
thermal
149

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