Datasheet
– insert the lock-in retaining spring for transistors THFU 1 (A)
into the groove of the profile
– push transistor (B) below the spring
–
universa
l
l
oc
k
-in retaining spring
f
or types TO 218, TO 220, TO 247, TO 264 an
d
various SIP-Mu
l
tiwatt etc. transistor
h
ousings
–
clip fastening also for power transistors without holes, MAX types etc.
–
easy assembly and secure hold when using a special groove geometry in heatsinks, housing parts etc.
–
optimal heat transfer between component and cooling element
–
various spring clip shapes available for fastening the components (see sketch)
–
the range of suitable heat sinks is continuously extended
–
versions specifically designed to meet customers requirements on request
Installation
A
B
A
B
THFU 1
THFU 2, THFU 3, THFU 4, THFU 5, THFU 6
– place transistor (B) onto the mounting area
– press the lock-in retaining spring for transistors THFU 2 - 6 (A) into the
groove of the profile (a suitable installation aid will facilitate pressing in)
– Once in place, the spring will keep its position and fix the transistor with a high contact
pressure on the installation surface (the spring remains in its position and it can neither be
moved in a lengthwise direction nor fall it can out of the groove in a cross direction).
material: stainless steel
material thickness: 0.8 mm
A 116
E2–5Thermal conductive materialE17Mica wafers
E49Insulating capsE14Kapton insulator washers
E19Thermal conductive pasteE47–48Mounting parts for heatsinks
A2–7Technical introductionE42–46Mounting material for semiconduct.
Lock-in retaining spring for transistors
A
B
C
D
E
F
G
H
I
K
L
M
N