PI060900
vs
SDA12H1SBDR
feature comparison
Part Life Cycle Code |
Contact Manufacturer
|
Active
|
Ihs Manufacturer |
SALECOM ELECTRONICS CO LTD
|
C & K COMPONENTS LLC
|
Reach Compliance Code |
unknown
|
compliant
|
ECCN Code |
EAR99
|
EAR99
|
HTS Code |
8536.50.70.00
|
8536.50.90.65
|
Actuator Angle |
|
|
Actuator Color |
WHITE
|
|
Actuator Material |
THERMOPLASTIC
|
POLYAMIDE6T
|
Actuator Type |
PIANO
|
EXTENDED TYPE
|
Body Breadth |
7.3914 mm
|
7.49 mm
|
Body Color |
BLACK
|
BLACK
|
Body Height |
4.445 mm
|
3.5 mm
|
Body Length or Diameter |
17.526 mm
|
32.5 mm
|
Center Contact Plating |
GOLD OVER NICKEL
|
GOLD
|
Contact Current(DC)-Max |
0.025 A
|
0.1 A
|
Contact (DC) Max Rating R Load |
0.025A@24VDC
|
0.1A@5VDC
|
Contact Function |
ON-ON
|
ON-OFF
|
Contact Resistance |
0.05 mΩ
|
0.05 mΩ
|
Contact Voltage(DC)-Max |
24 V
|
5 V
|
Dielectric Withstand Volts |
300VRMS V
|
300VDC V
|
End Contact Plating |
GOLD OVER NICKEL
|
GOLD
|
Housing Material |
POLYBUTYLENE TEREPHTHALATE
|
POLYPHENYLENE SULPHIDE
|
Insulation Resistance |
100000000 Ω
|
100000000 Ω
|
Insulator Material |
THERMOPLASTIC
|
POLYPHENYLENE SULPHIDE
|
Mounting Feature |
THROUGH HOLE-STRAIGHT
|
SURFACE MOUNT-STRAIGHT
|
Number of Switch Sections |
6
|
12
|
Operating Temperature-Max |
85 °C
|
85 °C
|
Operating Temperature-Min |
-40 °C
|
-40 °C
|
PCB Hole Count |
12
|
|
Solderability |
HAND
|
|
Surface Mount |
NO
|
NO
|
Switch Function |
SPST
|
SPST
|
Switch Type |
PIANO DIP SWITCH
|
SLIDE DIP SWITCH
|
Terminal Finish |
TIN-LEAD
|
GOLD OVER NICKEL
|
Terminal Length |
0.128 inch
|
|
Termination Type |
SOLDER
|
SOLDER
|
Base Number Matches |
1
|
1
|
Rohs Code |
|
Yes
|
Actuator Length |
|
0.039 inch
|
Additional Feature |
|
LOW PROFIE, UL
|
Center Contact Material |
|
BERYLLIUM COPPER
|
Electrical Life |
|
1000 Cycle(s)
|
End Contact Material |
|
BERYLLIUM COPPER
|
JESD-609 Code |
|
e4
|
Number of Positions |
|
12
|
Packing Method |
|
TR, 13 INCH
|
Switch Action |
|
LATCHED
|
Terminal Material |
|
BRASS
|
|
|
|
Compare PI060900 with alternatives
Compare SDA12H1SBDR with alternatives