Annex No.5 User Manual Functional Description Radio System for Studio Flash Equipment 916.5MHz: RFS Transmitter L7253.01 914.0MHz: RFS Transmitter L7253.03 Bron Elektronik AG, 4123 Allschwil, Switzerland The application concerns the data transmission from an operator console (MAC/PC) to the flash units of a Photo Studio, in both directions, as well as the transmission of a flash trigger signal from the camera to all of the flash units. RFS Transmitter specifications ( typical ):
Output power:
Frequency:
Modulation:
Data rate / Data format:
Transmission time flash triggering:
Transmission time data-block:
Size:
Operating voltage:
Operating current:
RF input impedance Antenna:
LED:
Switches:
test
+ and -
Sync connector / Camera shoe:
Transmission format Data format: MSB first Flash-block:
12dBm 914.0-916.5MHz ASK 38.4 kBaud 76.8kBit in Manchester 0.625ms 0.833ms 2.5ms 70mm x 45mm x 35 2.7V-3.0V 20mA transmit mode 10A power down mode 50 ohms Helical SMA Communication indicator transmit flash block transmit data block transmit flash block Preamble Start symbol Flash: 01110001 11010110 Manchester modified 11100110 01100110 optimisation of DC-balance ID (Studio no.)
( Manchester ) 01010101 01010110 ID=1 Data-block:
Preamble:
Start symbol Data: 01110001 11011001 Manchester modified Block number:
11100110 01100110 optimisation of DC-balance
... each new block receives a new block number, but not a repetition. Byte count:
Start info:
Studio ID:
Unit ID:
n data Check sum:
End Symbol Data:
... 01011010 01011001 01010101 01010110 ID=1
... .. .. .. .. .. 01110110 00100110 Manchester modified max. 50 Byte
( Manchester ) 1/4 wave Device Antennas MOBILE MARK MOBILE MARK COMMUNICATIONS ANTENNAS R R For 800 & 900 MHz Applications Models for Cellular, CDPD, ISM, GSM, Mobitex and Skytel applications Quarterwave styles in flexible whip, helical stubs with hard radome Helical stub models with various connectors Sleek profile, with a variety of connector styles Full 1/4 models in straight and right angle Quarterwave antennas provide performance for products with the minimum of size. Full length quarterwave design provide the maximum efficiency, while loaded helical stub antennas provide minimum size. The full length models use a flexible whip, whereas the helical antenna use a hard radome. Overall performance of quarterwave antennas does depend on the ground plane provided by the radio system or the mounting configuration. Quarterwave antennas are broadband compared to other designs and can effectively be used in most apllications. For OEM applications, performance can often be maximized with a one time factory adjustment. Connector styles available are TNC, SMA, MMCX or a thread ferrule assembly. The thread ferrule provides the most economical solution, but does require a special mechanical configuration for mounting and feeding the RF signal. Special connectors are also available, please consult factory. Models with "-925 designators also overlap the ISM 902-
928 band and are now in lieu of the "-915" models. Customization available for OEM applications Model Numbers - Straight Antennas Model Frequency Style Connector PSTG0-900MM 824-894MHz Full 1/4 10-32 PSTG0-900MX 824-894MHz Helical 4mm x .5 PSTG0-900HS 824-894MHz Helical SMA PSTG0-900SE 824-894MHz Full 1/4 SMA PSTG0-900TE 824-894MHz Full 1/4 TNC PSTG0-925MM 870-960MHz Full 1/4 10-32 PSTG0-925MX 870-960MHz Helical 4mm x .5 PSTG0-925HS 870-960MHz Helical SMA PSTG0-925SE 870-960MHz Full 1/4 SMA PSTG0-925TE 870-960MHz Full 1/4 TNC Model Numbers - Right Angle Antennas Model Frequency Style Connector MDM-900OP 824-894MHz Full 1/4 MMCX MDM-925OP 870-960MHz Full 1/4 MMCX Frequency Guide
-900 Models For US Cellular (Analog & Digital), CDPD
-925 Models For EU Cellular, ISM, Mobitex and Skytel Special configurations available upon request. Please consult factory for details/availability. Specifications Frequency:
Gain:
Bandwidth @ 2:1 SWR:
Impedance:
Maximum Power:
Connector:
See above 0dBi max for wave See frequency range above 50 ohm nominal 10 watts See above, special connectors also available, please consult factory for details. Whip Length:
wave wave, helical Whip Material wave wave, helical 95mm (3.75") maximum, varies slightly based on frequency. 32mm (1.25") maximum Rubber jacket/flexible cable ABS radome, helical radiator 106-108 Anglesey Business Park, Littleworth Road, Hednesford, Staffs. WS12 5NR. U.K. Tel: +44 1543 878343 Fax: +44 1543 871714 E-mail: enquiries@mobilemarkeurope.co.uk Visit our web page : www.mobilemark.com Specifications subject to change without notice. (9/2001) b r o n c o l o r Radio Frequency System (RFS) Operating instructions Before use We are very pleased you have chosen a broncolor Radio Frequency System RFS unit which is a high-quality product in every respect. If used properly, it will render you many years of good service. Please read the information contained in these operating instructions carefully. They contain important details on the use, safety and maintenance of the appliance. Keep these operating instructions in a safe place and pass them on to further users if necessary. With the broncolor Radio Frequency System you can trigger, and operate by remote control broncolor units which are equipped with an integrated RFS interface. The RFS units should be used only for professional shooting and should be operated exclusively by trained staff. 1. Radio Frequency System (RFS) The radio frequency system broncolor RFS consists of the following elements:
1 1.1 Flash unit Broncolor power packs or compact units with integrated RFS interface. For remote control, respectively flash triggering of the unit by radio from the transmitter RFS or transceiver RFS from a PC or Macintosh computer. For on-screen control, up to four lighting situations can be stored in memory. Each RFS unit is assigned with an individual unit address and a studio workstation (remote control channel) for the purpose of remote control, respectively flash triggering via radio. Due to the digitally coded channels it is possible to shoot in the same room from several workstations independently, without any interference between the flash units. Attention: Although this radio frequency system offers the choice between 10 different radio channels, the number of effectively available channels depends on the connected RFS flash unit. You will find more instructions in the operating manual of the corresponding flash unit. 1.2 Transmitter RFS Radio transmitter with 10 digitally coded channels for wireless triggering of broncolor flash units with an integrated RFS interface. It is contained in a plastic housing and has a fixation base for the cameras hot shoe and a sync cable. Synchronization of the flash takes place via the accessory shoe or the sync connector of the camera. The operational distance for power packs outdoors is up to 50 m; in closed rooms up to 30 m, compact units up to 30 m / 20 m. Each data command is shown by the green LED. The radio transmitter is provided with a lithium button cell (approx. 5-year service life) and is permanently operational. Regulation of power The transmitter has a test button to trigger the flash as well as two buttons for power regulation of all RFS flash units of the selected workstations. A short press of the buttons energy regulation buttons up/down changes the settings by 1/10 f-stop, a long press by 1/1 f-stop. Technical data Number of channels:
Operational distance outdoors:
Operational distance in closed rooms:
Range:
Dimensions (L x B x H):
10 up to 30 m / 50 m up to 20 m / 30 m up to 300 m 71,5 x 47 x 56,5 mm
(incl. antenna and base plate) 2 Technical data (continued) Weight:
Trigger sequence per s:
Power supply:
1.3 Transceiver RFS 55 g 10 Button cell Li-Mn CR2450, 560mAh, 3V Radio transceiver with actually 10 digitally coded channels for wireless remote control and flash triggering of the broncolor RFS flash units from a PC or Macintosh computer. The effective number of available channels depends on the connected flash unit. The transceiver is contained in a plastic housing and has an USB connection cable as well as a sync cable. A base plate is mounted underneath the housing. The computer supplies the unit with power. Therefore there is no need for an additional energy source. The system software is supplied on a data carrier. The transceiver allows the operation of all unit functions from a PC or Macintosh computer, however the operating controls remain active on the unit front plate. The actual control condition is shown on the computer. Flash triggering for shooting must take place directly from the camera. With digital camera systems which have a sync connector at the PC or Macintosh computer, flash synchronization can be effected directly via the sync jack on the transceiver RFS; that means there is no need for a separate RFS camera transmitter. The operational distance for power packs outdoors is up to 50 m; in closed rooms up to 30 m, for compact units up to 30 m / 20 m. Each communication between transceiver and flash unit is indicated by the green LED. Regulation of power The transceiver has a test button to trigger the flash as well as two buttons for power regulation of all operated RFS flash units. A short press of the energy regulation buttons up/down changes the settings by 1/10 f-stop, a long press by 1/1 f-stop. Technical data Number of channels Operational distance outdoors:
Operational distance in closed rooms:
Range:
Dimensions (L x B x H):
actually 10 up to 30 m / 50 m up to 20 m / 30 m up to 300 m 80 x 55,5 x 51,5 mm
(incl. antenna and base plate) 3 Technical data (continued) Weight:
Trigger sequence per s:
Power supply:
105 g 10 from computer 1.4 Requirements for the environment Apple Macintosh With operating system OS 8.6, advisable 9.1 or higher, OS X;
USB-port, memory capacity approx. 5 MB PC With operating system Microsoft Windows 98 / WinMe / Win2000 / Windows XP;
USB-port, memory capacity approx. 5 MB 2. Startup 2.1 Transmitter RFS Scope of delivery: 1 transmitter RFS, 1 button cell Li-Mn, and 1 sync cable. 1.) Select the desired studio workstation with the rotary switch at the underside of the transmitter. This number must correspond with the selected studio number of all flash units on this workstation. 2.) Slide the transmitter RFS on the camera shoe and, if necessary, connect the delivered sync cable. 3.) Before the first commissioning or after longer working breaks the RFS system needs to be calibrated. This occurs by pressing the test button, which is situated on the above side of the transmitter. 2.2 Transceiver RFS Scope of delivery: 1 transceiver, 1 USB connection cable, 1 sync cable and 1 software data carrier. The data carrier includes 4 data files:
- Software driver for RFS (RFS-driver)
- Software WindowsStudio for PC/Windows
- Software macStudioOSX for Macintosh OS X
- Software macStudioClassic for Macintosh OS 8 and 9 4 In comparison to the versions PC/Windows and Macintosh Classic, the Macintosh software OS X is irreversible. Installation a) Insert data carrier with the broncolor software in the computer drive b) Connect the USB connection cable to the USB-port of the computer c) Install the USB driver from the data carrier in the computer d) Open data file of the corresponding operating system (Windows or Macintosh OS). Move files BronStudio and BronStudio.xrc onto the desktop. Both files must always be stored at the same place so that the software is operational. e) Open file BronStudio and select the corresponding USB-port (for example COM 3). f) Synchronize the address of the flash unit with the BronStudio software. The same studio channel must be set on all used flash units (for example studio 5) and each unit must be programmed with an individual unit address (1,2,3) (see operating manual of the flash unit). 5 2.3 Country specific radio frequencies Please note, that each country defines their allowed or free radio frequencies depending on the specific laws in each country. Therefore all RFS systems are programmed with the specific country radio frequency before delivering. If you think about using the RFS system in an another country, you need to check before, if the required radio frequency is identical. Standard EC-standards ERM EMC 73/23, 89/336 und 99/5 EN 300 220-1,-3 EN 301 489-1,-3 EN 60950 EN 50371 FCC Part 15 This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference and
(2) This device must accept any interference received, including interference that may cause undesired operation. Changes or modifications to this unit not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. Subject to change in the interest of product enhancement. 6