217
SWITCHES
ROUND PADDLE LEVER TOGGLE
Current Rating:
3A 250VAC, 6A 125VAC
Initial Contact Resistance:
<50Meg Ohms @12VDC
Insulation Resistance:
>100Meg Ohms
Dielectric Strength (Open Contacts):
>1500V for 1 minute
Contact Material:
Silver Plated Brass
Terminal Material:
Copper Alloy
Body Material:
Nylon (UL 94V-2)
Actuator & Bezel:
Nylon (UL 94V-2)
Terminal Type:
Solder Connection
Mounting hardware:
M15 P1.0
Part No.
Type
Action
Actuator Color
30-10320
SPST
On-Off
Black Paddle
30-10322
SPDT
On-On
Black Paddle
30-10324
SPDT
On-(On)
Black Paddle
30-10326
SPDT
On-Off-On Black Paddle
30-10328
SPDT
On-Off-(On)
Black Paddle
30-10329
SPDT
(On)-Off-(On) Black Paddle
ROUND PADDLE LEVER TOGGLE SWITCHES
Panel Cut-out: 15mm (.59”)
Maximum panel thickness 6.0 mm
Current Rating:
6A 250VAC, 10A 125VAC
Initial Contact Resistance:
<50Meg Ohms @12VDC
Insulation Resistance:
>100Meg Ohms
Dielectric Strength (Open Contacts):
>1500V for 1 minute
Contact Material:
Silver Plated Brass
Terminal Material:
Copper Alloy
Body Material:
Nylon (UL 94V-2)
Actuator & Bezel:
Nylon (UL 94V-2)
Terminal Type:
Solder Connection
Mounting Hardware:
M18 P1.0
Lamp Voltage:
LED 3V* @20ma
(*
resistor needed for other voltages
)
Part No.
Type
Action
Lamp / Actuator Color
30-10440
DPST
On-Off
Black Paddle
30-10442
DPDT
On-On
Black Paddle
30-10444
DPDT
On-Off-On Black Paddle
30-10522
SPST
On-Off
LED Lamp, Red
30-10523
SPST
On-Off
LED Lamp, Amber
30-10525
SPST
On-Off
LED Lamp, Green
30-10622
SPDT
On-On
LED Lamp, Red
30-10623
SPDT
On-On
LED Lamp, Amber
30-10625
SPDT
On-On
LED Lamp, Green
30-10722
SPDT
On-Off-On LED Lamp, Red
30-10723
SPDT
On-Off-On LED Lamp, Amber
30-10725
SPDT
On-Off-On LED Lamp, Green
ROUND PADDLE LEVER TOGGLE SWITCHES
Panel Cut-out: 18mm (.70”)
Maximum panel thickness 5.0 mm
LED indicator on top of
lever
( ) = Momentary
Using an LED
An LED (light emitting diode) requires about two volts to operate and twenty milliamps of current. A current
limiting resistor must be used in series with an LED to prevent current over 20 mA from flowing; otherwise,
your LED will be damaged. You may simply use Ohm’s law to calculate the resistor value. Here is an exam-
ple, we have a circuit operating at 12 volts DC, and need to know the value of a resistor to use. The LED
“wants” two volts to operate ; so subtract 2 from the 12 volts which is of course, ten. Plug the “ten” in at “E”
and divide by “I” or .020 amps. The result is 500 ohms for the resistor value
If you forget to subtract the two volts, the resistor value will be 600 and the LED will not be at maximum
brightness. However, it will last much longer! (about double normal life).
Another formula you can use is R=50(V-2). The R is for resistor, the V for voltage. We like this one as it is
easy to recall and do in your head.
LED wth DC
(Direct Current)
When using an LED with AC, a diode must be placed in
series with the LED. Because AC will only be flowing
1/2 the time, we use a variation on the easy formula
shown to the left(bottom). Use R=25(V2.7), which
includes the voltage drop across the diode.
So, if you have a circuit using 28 volts AC, multiply 25.3
(or 28V -2.7), times 25 equals 632 ohms. We need to
use a standard value resistor, so use 680 ohms for “R”.
LED wth AC
(Alternating Current)
DC Volts
5V
6V
12V
24V
Resistor (ohms)
150
180
470
1200
AC Volts
6V
12V
24V
48V 117V
Resistor (ohms)
82
220
560
1200 3K
Typical voltages used in electronics and resistor values (rounded to nearest standard resistor).
OFC...,207,208,209,210,211,212,213,214,215,216 218,219,220,221,222,223,224,225,226,227,...352