T1 3/4 6mm bi-pin filament lamp,28V
|
This image is representative of the product range
|
Production packaging option
|
qty
|
Price
Each (In a Pack of 10)
|
|
10
|
P.O.A
|
|
150
|
P.O.A
|
|
500
|
P.O.A
|
|
1000
|
P.O.A
|
140 in stock in the UK.
Stock Information correct at 29/07/2010 12:42 PM
-
This item is from our Extended Range
Please note:
- The Extended Range includes both electronic components and process control automation products that have been sourced from Allied Electronics, our sister company in the USA.
- Please allow extra time for delivery.
- Because of different lead times, these items may be invoiced separately from other items in the same order.
- Extended Range items are only available online.
Production packaging offer
- Supplied in industry standard packaging
- For automated insertion in the production environment
- Flexible order quantities, order in multiples of 10
- Each (In a Pack of 10)
Also available in standard packaging
|
|
Attributes
|
Attribute Type
|
Attribute Value
|
|
Type
|
Filament Lamp
|
|
Base Type
|
Bi-Pin
|
|
Size
|
T1 3/4
|
|
Voltage
|
28 V
|
|
Current
|
40 mA
|
|
Colour
|
Clear
|
|
Diameter
|
6 mm
|
|
Typical Life
|
20000 h
|
|
Brightness
|
2.5 lumens
|
|
Luminous Intensity MSCP
|
0.2
|
Overview
T-1¾ (6mm) Bi-Pin
Range Overview
Wire-Ended & Bi-Pin
Filament lamps will perform to specification and give optimum life when:
a) They are powered at the rated voltage from a stabilised 50Hz ac supply
b) Ambient temperature is in the range 20 to 25°C
c) No mechanical vibration is present.
Deviations from these criteria can have a significant effect on lamp life, particularly with low current filaments (<80mA). Operation from a dc supply at rated voltage can reduce specified life by up to 50%. The effect of variation from the rated operating voltage should be noted: 5% above will reduce lamp life by up to 50%. 5% below will significantly increase lamp life. Current consumption can vary by up to ±10% on stated values at rated supply voltage. Care therefore should be exercised when running a number of lamps in series. In such applications it is recommended that the rated voltage be reduced by 10% to prevent premature failure of individual lamps.