Dell Star Technologies Inc 2437 Manuale Utente
-USER MANUAL-
OPERATING INSTRUCTIONS
TRANSMITTER MODEL DSX-2437
Dell-Star Technologies, Inc.
6334 East 13th Street, Tulsa, Oklahoma 74112 : Tel 918-838-1973 : Fax 918-838-8814 : E-mail: dellstar@tulsa.com
APPLICATION:
1)
THE MODEL DSX-2437 VIDEO TRANSMITTER IS SPECIFICALLY DESIGNED FOR THE BROADCAST OF STANDARD NTSC SIGNALS TO BE
RECEIVED AND PROCESSED BY A BROADCAST VIDEO RECEIVER, PROVIDING A WIRELESS LINK FOR CLOSED CIRCUIT TELEVISION
SYSTEMS. THE OUTPUT POWER OF THE TRANSMITTER IS 5 WATTS.
RECEIVED AND PROCESSED BY A BROADCAST VIDEO RECEIVER, PROVIDING A WIRELESS LINK FOR CLOSED CIRCUIT TELEVISION
SYSTEMS. THE OUTPUT POWER OF THE TRANSMITTER IS 5 WATTS.
2) THIS EQUIPMENT IS TYPE ACCEPTED FOR LICENSED USE UNDER FCC RULES PART 90 FOR USE IN THE 2450MHz TO 2500MHz
FREQUENCY BAND. INTENDED USERS INCLUDE STATE AND LOCAL AGENCIES OF LAW ENFORCEMENT, FIRE DEPARTMENTS OR
OTHER PUBLIC SAFETY ORGANIZATIONS OR AGENCIES.
OTHER PUBLIC SAFETY ORGANIZATIONS OR AGENCIES.
3) THIS EQUIPMENT IS EMI/RFI SEALED AND IS INTENDED TO BE DUST, WATER AND WEATHER RESISTANT UNDER NORMAL
ENVIRONMENTAL AND OPERATING CONTITIONS. ANY ATTEMPT TO OPEN THE UNIT OR TO EXPOSE THE INTERNAL COMPONENTS,
BY OTHER THAN A MANUFACTURERS AUTHORIZED TECHNICIAN, WILL VIOLATE THE INTEGRITY OF THE SEALING SYSTEM AND
WILL INVALIDATE THE WARRANTY.
BY OTHER THAN A MANUFACTURERS AUTHORIZED TECHNICIAN, WILL VIOLATE THE INTEGRITY OF THE SEALING SYSTEM AND
WILL INVALIDATE THE WARRANTY.
CAUTIONS:
1) RF EXPOSURE COMPLIANCE: RF EXPOSURE COMPLIANCE IS HANDLED DURING LICENSING BY THE RESPONSIBLE FCC
BUREAU(S). THE INSTALLER OF THE ANTENNA TO BE USED WITH THIS TRANSMITTER MAY BE REQUIRED TO PERFORM
AN MPE EVALUATION AND A ENVIRONMENTAL ASSESSMENT (EA) OF THE LOCATION AT THE TIME OF LICENSING PER
CFR 47 PART1.1307. ADDITIONALLY, FIXED MOUNTED ANTENNA(S) THAT ARE CO-LOCATED WITH OTHER ANTENNA(S)
MUST SATISFY THE CO-LOCATION REQUIREMENTS OF PART 1.307, FOR SATISFYING RF EXPOSURE COMPLIANCE.
AN MPE EVALUATION AND A ENVIRONMENTAL ASSESSMENT (EA) OF THE LOCATION AT THE TIME OF LICENSING PER
CFR 47 PART1.1307. ADDITIONALLY, FIXED MOUNTED ANTENNA(S) THAT ARE CO-LOCATED WITH OTHER ANTENNA(S)
MUST SATISFY THE CO-LOCATION REQUIREMENTS OF PART 1.307, FOR SATISFYING RF EXPOSURE COMPLIANCE.
2) A SUITABLE 50 OHM ANTENNA OR LOAD SHOULD BE CONNECTED TO THE RF OUTPUT OF THE TRANSMITTER
BEFORE APPLYING DC INPUT POWER!
3)
DO NOT ATTEMPT TO OPERATE THE TRANSMITTER ON LESS THAN 6 VDC ABSOLUTE MINIMUM VOLTAGE OR MORE
THAN 28 VDC ABSOLUTE MAXIMUM VOLTAGE.
THAN 28 VDC ABSOLUTE MAXIMUM VOLTAGE.
INSTALLATION & OPERATION:
1) IDEALLY, THE TRANSMITTER SHOULD BE LOCATED SUCH THAT THE SPACE BETWEEN THE TRANSMIT AND RECEIVE ANTENNAS IS
UNOBSTRUCTED. PHYSICAL, MAN MADE, AND ENVIRONMENTAL STRUCTURES OR TOPOGRAPHICAL FEATURES BETWEEN THE
ANTENNAS WILL ABSORB OR REFLECT TRANSMITTED SIGNALS; REDUCING OR LIMITING THE TRANSMIT RANGE. METAL OR
METALIZED MATERIAL IN THE ANTENNA WAVE PATTERN WILL CAUSE SIGNALS TO BE REFLECTED. OTHER STRUCTURAL AND
PHYSICAL OBSTRUCTIONS, IE., CONCRETE, GLASS, TREES ETC. WILL CAUSE THE TRANSMITTED SIGNALS TO BE ATTENUATED BY
ABSORBTION TO SOME DEGREE. THE EXTENT OF REDUCTION IN TRANSMITTED DISTANCE AS AN EFFECT OF THESE FACTORS MAY
NOT BE STATED; BUT RATHER LEARNED THROUGH ACTUAL TRIAL APPLICATION AND EXPERIENCE.
ANTENNAS WILL ABSORB OR REFLECT TRANSMITTED SIGNALS; REDUCING OR LIMITING THE TRANSMIT RANGE. METAL OR
METALIZED MATERIAL IN THE ANTENNA WAVE PATTERN WILL CAUSE SIGNALS TO BE REFLECTED. OTHER STRUCTURAL AND
PHYSICAL OBSTRUCTIONS, IE., CONCRETE, GLASS, TREES ETC. WILL CAUSE THE TRANSMITTED SIGNALS TO BE ATTENUATED BY
ABSORBTION TO SOME DEGREE. THE EXTENT OF REDUCTION IN TRANSMITTED DISTANCE AS AN EFFECT OF THESE FACTORS MAY
NOT BE STATED; BUT RATHER LEARNED THROUGH ACTUAL TRIAL APPLICATION AND EXPERIENCE.
NOTE: THE MANUFACTURER MAKES NO CLAIMS REGARDING THE TRANSMISSION RANGE OR DISTANCE PERFORMANCE OF THIS
SYSTEM EXCEPT WHEN OPERATED IN AN IDEAL ATMOSPHERIC AND “LINE-OF-SIGHT” CONDITION.
SYSTEM EXCEPT WHEN OPERATED IN AN IDEAL ATMOSPHERIC AND “LINE-OF-SIGHT” CONDITION.
2) CONNECT A SUITABLE 50 OHM ANTENNA TO THE TRANSMITTER AND ORIENT IT SO THAT THE SIGNAL WILL PROPAGATE IN THE
DIRECTION OF THE RECEIVER. LOCATE THE ANTENNA AWAY FROM METAL OBJECTS, JUNCTION BOXES OR ELECTRICAL
SWITCHES. THE ANTENNA MAY BE CONNECTED DIRECTLY TO THE TRANSMITTER OR VIA A SHORT LENGTH OF LOW LOSS 50 OHM
IMPEDANCE COAXIAL CABLE.
SWITCHES. THE ANTENNA MAY BE CONNECTED DIRECTLY TO THE TRANSMITTER OR VIA A SHORT LENGTH OF LOW LOSS 50 OHM
IMPEDANCE COAXIAL CABLE.
3) APPLY DC POWER TO THE TRANSMITTER USING A BATTERY OR POWER SUPPLY. THE TRANSMITTER HAS BEEN DESIGNED TO
OPERATE FROM 8 VDC TO 24 VDC AND CONSUMES ABOUT 18 WATTS OF INPUT POWER. WHEN OPERATED AT 12 VDC, INPUT
CURRENT IS ABOUT 1.5 AMP. POWER SOURCES SHOULD BE STABLE, REGULATED AND BE CAPABLE OF SUPPLYING SLIGHTLY
MORE THAN THE REQUIRED CURRENT. THE MATING POWER CONNECTOR IS A LEMO MODEL FGG.OB.302.CLAD42. RED DOT IS
POSITIVE.
CURRENT IS ABOUT 1.5 AMP. POWER SOURCES SHOULD BE STABLE, REGULATED AND BE CAPABLE OF SUPPLYING SLIGHTLY
MORE THAN THE REQUIRED CURRENT. THE MATING POWER CONNECTOR IS A LEMO MODEL FGG.OB.302.CLAD42. RED DOT IS
POSITIVE.
4) THE NTSC 1 VP-P VIDEO OUTPUT OF THE CAMERA IS CONNECTED TO THE FEMALE BNC VIDEO INPUT OF THE TRANSMITTER VIA
STANDARD RG 58 / 75 OHM COAXIAL CABLE. ANY LENGTH CABLE MAY BE USED AS LONG AS THE VIDEO SIGNAL DOES NOT DROP
APPRECIABLY BELOW THE 1 VP-P LEVEL.
APPRECIABLY BELOW THE 1 VP-P LEVEL.