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RF Over Fibre Component Modules - SRY-TX-L1-401 Datasheet

2015-04-24 15:54:37| rfglobalnet Downloads

The SRY-TX-L1-401 is an L-band (850-2450 MHz MHz) to 1310nm optical transmitter. Features include a DFB laser with a two stage optical isolator, 10km nominal range with 22KHz, and a 13V/18V switchable LNB power at 500 mA.

Tags: component modules fibre datasheet

 

RF Over Fibre Component Modules - SRY-TX-L1-401 Transmitter Datasheet

2015-04-24 15:54:37| rfglobalnet Home Page

The SRY-TX-L1-401 is an L-band (850-2450 MHz MHz) to 1310nm optical transmitter. Features include a DFB laser with a two stage optical isolator, 10km nominal range with 22KHz, and a 13V/18V switchable LNB power at 500 mA.

Tags: component modules fibre transmitter

 
 

RF Over Fibre Component Modules - StingRay

2015-04-24 15:40:48| rfglobalnet Products

Our standalone, component StingRay RF over fibre modules offer a low cost and compact space saving solution for links up to 10 km (Link budget 4 dB). They are ideal for smaller teleports, video head ends, TVRO and other single/few feed medium/long haul distribution applications.

Tags: component modules fibre

 

EXTRUDE HONE(TM) Products Helps Global Hydraulic Component Leader Keep in Front

2015-04-23 12:31:14| Industrial Newsroom - All News for Today

Proprietary thermal energy technology key to improved quality New P400 TEM machine from Kennametal Extrude Hone. Manufacturers and quality professionals requiring high-precision components for automotive, aerospace, energy, medical, and other industries know that removing particles from intersected holes and...

Tags: products front global leader

 

IR Emitters reduce component count while increasing intensity.

2015-04-15 14:31:06| Industrial Newsroom - All News for Today

Comprising one leaded 5 mm IR emitter with parabolic lens and 8 SMD devices in 0805, PLCC-2, top-looking and side-looking packages, high-speed 940 nm IR emitters employ SurfLight™ surface emitter chip technology. Emission of nearly all light and power from top of chip results in radiant intensity ratings up to 600 mW/sr (leaded) or 10–120 mW/sr (SMD). Respectively, angles of half intensity for leaded and SMD devices are ±3° and ±9° to ±60°. Rise and fall times are 10 nsec.

Tags: count reduce increasing component

 

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