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If several DCF77-clocks are wanted in the building the 4x antenna amplifier with potential separation can be used. The device is structured like the antenna amplifier FG444400, but without indirect lightning protection.
The housing contains the mains unit and several amplifier modules.
The signal is fed via a pre-amplifier to 4 potential free output steps and put out via insulated BNC-connectors on the wider side of the housing.
The line amplifier is integrated into an HF proof housing with a base plate. It is therefore easy to fix the device to the wall.
The 6849 line amplifier is looped into the antenna cable. The voltage supply of the line amplifier is provided via the antenna cable by the BNC connector of the hopf GPS system.
The GPS antenna cable from the antenna is connected to the BNC connector 'ANTENNA'. The signal is supplied to the connected hopf GPS system by the BNC connector 'RECEIVER'.
To avoid destruction caused by overloading ensure that the line amplifier is not earthed.
The integrated fine protection of the line amplifier enables installation before the lightning protection without any risk of destroying the line amplifier through overloading.
If only one GPS antenna for operating several GPS receivers can be installed (due to structural or other reasons), it is however possible to operate up to 8 GPS receivers with one common GPS antenna by using the active GPS antenna splitter 4449. This solution is often used in the context of superstructures for conducting device tests in laboratories or testing stations.
The active GPS antenna splitter 4449 contains 8 outputs and a signal amplification.
The GPS power splitter 4449 is available in two versions:
FG4449G00
Active GPS power splitter für GPS L1 antenna signal with 8 outputs and signal amplification. System-internal power supply via GPS antenna cable
The necessary voltage for operating the unit is supplied system-internally via the GPS antenna cable of the connected hopf GPS receivers plugged in the master output. No external power supply is needed to operate the unit.
The application's 8 signal outputs are subdivided in 2 output groups (output A and output B) with 4 outputs each. Each output group has one master output and three slave outputs.
The supply voltage for the two output groups is respectively fed by the hopf GPS receiver which is connected to the master output of the output group. Without system-internally supplied voltage via the master output of an output group no signal output via this group takes place.
FG4449G01
Active GPS power splitter for GPS L1 antenna signal with 8 outputs and signal amplification. Power supply via external voltage source
An external voltage source (18-60V DC, Imax = 300mA) for feeding the antenna splitter is necessary. Connection of the 8 outputs to the application can be done in any sequence.
A system-internal power supply via the connected hopf GPS receivers is not necessary.
The active GPS antenna splitter 4449 is optionally available with a modification for connecting GPS receivers with antenna circuit monitoring. Due to this modification a current of approximately 13 mA per each output is achieved for connection of the hopf GPS receivers.
Passive GPS 2x Power Splitter
If only one GPS antenna can be installed (due to structural or other reasons), it is however possible to operate two GPS receivers with one common GPS antenna by using the passive GPS antenna splitter 4443.
Voltage for Power Splitter 4443 is supplied internally by the system via the GPS antenna cable of the connected hopf GPS receivers. No external power supply is needed to operate the application.
The GPS antenna splitter 4443 can also be used together with a third-party device if at least one of the connected GPS receivers provides suitable supply voltage via the antenna cable and if all connected components are working in accordance with the original GPS L1 antenna signal.
The power splitter is built in a HF-proof housing with an insulated base plate. The unit can therefore be easily screwed to the wall near the GPS receivers. The GPS antenna is connected to the BNC-connector called 'Antenna In'. On the opposite side of the housing two signal outputs to the GPS receivers are located.
When outdoor antennas are used high interference voltage or current pulses may occur in the antenna cable during thunderstorms. This may result in damaging or destroying not only the directly connected radio-controlled clock system but also any other devices connected.
To avoid severe damage and damage-related costs an indirect lightning protection should be installed between the outdoor antenna and the circuit board of the radio-controlled clock.
This is why the hopf lightning strategy is made up of a combination of rough and fine protection.
Rough Lightning Protection
The double-chamber gas arrestor, located in the lightning protection, has a dynamic operating voltage of < 700 V and conducts voltage, when ignited, out of the cable to the earth potential.
Fine protection (in the hopf GPS receiver board)
Fast absorber diodes with a response time of < 1 nsec. and an absorber power of 600 W at the input of the GPS receiver board keep the potential differences between antenna core and zero at a constant approximate ± 6 V until ignition of the double-chamber gas arrestor.
Because of the high frequency and the signals below the permitted noise level, the elements must be set up in strip-line sequence. This combination also guarantees the potential separation of the antenna circuit to other electronics in conditions without interference.
If no further devices (eg. power splitter) are installed between lightning protection and electronic with fine protection, for safety reasons a maximum cable length must not be exceeded (please have a look at the drawings in the technical manual which can be found in the tab 'Download').
Mechanical structure of the antenna
The antenna is housed in a round weatherproof plastic casing. The casing cover is arched to prevent any rain water, snow or other impurities from settling on the antenna.
The mechanical construction consists of sturdy, anodized aluminium or aluminium die-casting and is designed to resist high winds.
The plastic housing can be installed horizontally as well as vertically to the mechanical parts, allowing both wall and flat-roof installation of the antenna. The antenna cable can be fed either through the base or through a slot on the side of the mounting flange.
Electrical structure of the antenna
As the antenna is non-directional, reception cannot be improved by mechanical shaping as, for example, with parabolic antennas. Therefore the signal strength at the antenna input is about 1 x 10-16 Watts and already below the generally permitted noise level.
An extremely low-noise pre-amplifier is placed behind the antenna in order to feed the signals to the electronics via an antenna cable. The antenna cable also supplies the voltage to the pre-amplifier.
نمایشگرهای بزرگ 4985 شامل یک ماتریس 16 در 16 دو خط 42 میلیمتری و یا یک خط 84 میلی متری هستند. آنها نمایش مقادیری مانند زمان بسیار دقیق و تاریخ را بر عهده دارند
The basic version of the large display 4985 consists of a matrix measuring 16x64 LED. Two lines of 42mm or one line of 84mm alphanumeric characters can be displayed on this matrix.
The device can operate as a large display for values such as grid time, difference time and mains frequency which can be transferred from hopf System 7001(RC) with a board 7515(RC).
Different display and decoding programs are integrated in the large display 4985.
The large display is equipped with a highly accurate quartz clock which can be synchronized with a DCF77 signal. The DCF77 signal can be supplied to the BNC connector via an antenna or as a pulse to the respective inputs. The large display generates a DCF77 pulse and thus synchronizes further devices.
Time and date can be displayed in different formats.
Housing
The large display is set up in a black lacquered aluminium housing for wall installation.
The front page is of red and of coated acrylic glass and fixed into guiding rails of the housing.
For installation and configuration of the large display the right side panel of the housing and the front pane should be pulled to the right. The side panel of housing is mounted into guiding rails with spring locks.
Switch-Box - System 5000 was designed and developed for setting up redundant clock systems in the 'hot standby function with automatic status-dependent signal switchover' operating mode.
Switch-Box - System 5000 is used when the most stringent demands are placed on the availability of a clock system.
The Switch-Box ensures that the signal output to the customer application is carried out at a low error level via the Clock System.
The Switch-Box realizes this fault-dependent signal switchover between the master and its redundant system by monitoring the status of the respective clock system. The Switch-Box can be configured in two different operating modes for this purpose:
Dynamic Error Status (for System 7001 and 7001RC)
In order to output the status information to the Switch-Box, clock systems 7001 and 7001RC generate special status information which can be picked up via a SUB-D connector on the front panel of Control Board 7020/7020RC.
Different priorities can be assigned to the various error messages in the clock systems in order to define optimum switchover conditions for the customer's application.
The clock systems can be monitored for 4 conditions in this mode:
Total failure / line breakage
Major fault
Minor fault
System O.K.
Static Error Status (for Series 6000 systems)
This mode was designed for Series 6000 clock systems; however in this mode the Switch-Box can also be controlled by external systems (on providing the required signals at a suitable signal level).
Two static signals of the clock systems are monitored in this mode:
Operation/voltage O.K.
Synchronicity O.K.
Due to the system's modular construction, the Switch-Box can easily be adjusted to the respective customer requirements or upgraded by the customer at a later date.
Thus specially adapted Switch-Boards, which generally facilitate easy connection between Switch-Box and clock system, are available for the various clock system output boards.
The basic system comprises:
1/1 19" rack 3U/84HP
Standard power supply unit with 115/230V AC / 30VA (47-63Hz)
Other input voltages and power supply units available
Incoming voltage feed with mains switch and line filter
Connection for protection earth cables up to 16mm²
System front panel with status LEDs
Compact - space-saving - highly precise - maintenance free!
This is the hopf network timeserver 8030NTS/GPS, easily explained.
With its up to 2 isolated and mutually independent network timeserver modules and up to 4 ethernet interfaces the network timeserver 8030NTS/GPS for DIN rail mounting is the ideal solution ensuring enhanced security for business critical and even most demanding applications!
Base system 8030NTS/GPS is equipped with 1 network timeserver module by default:
2 ethernet interfaces 10/100/1000 Mbit/s autosensing
Network Time Protocol (NTP) Version 4 (RFC5905)
To ensure enhanced security and availability in redundant networks one isolated, independent network timeserver module 8030NTS/M may be integrated in the base system at time of purchase.
Optionally the network timeserver 8030NTS/GPS may also be equipped with numerous time synchronization modules for the output of:
IRIG-B (modulated / unmodulated)
DCF77 (modulated / unmodulated)
Cyclic Pulses (PPS, PPM, etc.)
Serial time datagram
The mentioned output modules are available in various electrical signal output versions as well as modules for fiber optic output.
You may also decide on purchase which power supply to be configured for you:
Power supply - standard delivery with: Power supply - optionally available with:
100 - 240V AC (50/60 Hz)
110 - 250V DC
24V DC (18 - 36V DC)
48V DC (36 - 76V DC)
Even more flexibility required?!
Activate additional functions per network timeserver module on site after purchase of the appliance by entering a serial number-dependent activation key.
Alarming
SNMPv2c / SNMPv3 (MIB II, hopf Private Enterprise MIB, SNMP traps)
E-Mail Notification
SYSLOG
Routing: for configuring static routes based on special network configuration requirements
VLAN support according to IEEE 802.1q
Port Aggregation (NIC Bonding/Teaming) with support of IEEE 802.3ad trunks
Parallel Redundancy Protocol (PRP) according to IEC 62439-3
Precision Time Protocol (PTP) according to IEEE 1588-2008
IEEE Standard Profile for Use of IEEE 1588 Precision Time Protocol in Power System Applications (Power Profile) according to IEEE Std C37.238-2011
SINEC H1 time datagram
Module 6875 is a GPS Time Server in a compact aluminium housing for 35mm DIN rail mounting (DIN EN 60715 TH35).
It consists of a GPS clock module 6875 in an extended DIN Rail housing that have an additionally implemented NTP SINEC H1 LAN Board 7273 or an NTP SINEC H1 LAN Board 7274 (2 ethernet interfaces 10/100/1000 Mbit/s autosensing, VLAN, Bonding, PRP).
Signal outputs from Module 6875 (parameterizable via hmc (hopf Management Console))
Serial interface COM0: RS232
Output of serial string, cyclic pulses, DCF77 pulse (1Hz) or digital IRIG-B signal B00x / IEEE C37.118-2005 (formerly IEEE1344-1995) / AFNOR NF S87-500
Serial interface COM1: RS232 or RS422 (level parameterizable via the hmc)
Output of serial string, cyclic pulses, DCF77 pulse (1Hz) or digital IRIG-B signal B00x / IEEE C37.118-2005 (formerly IEEE1344-1995) / AFNOR NF S87-500
3x optical coupler pulse outputs (potential free)
Output of cyclic pulses, DCF77 pulse (1Hz) or status messages
1x TTL output
Output of serial string, cyclic pulses, DCF77 pulse (1Hz) or digital IRIG-B signal B00x / IEEE C37.118-2005 (formerly IEEE1344-1995) / AFNOR NF S87-500
1x analogue output via BNC
Output of DCF77 antenna simulation (77.5kHz) or analogue IRIG-B signal B12x / IEEE C37.118-2005 (formerly IEEE1344-1995) / AFNOR NF S87-500
Optionally available with additional:
1x FO output for the output of a serial string, cyclic pulses, DCF77 pulse (1Hz) or digital IRIG-B signal B00x / IEEE C37.118-2005 (formerly IEEE1344-1995) / AFNOR NF S87-500
Signal outputs from board 7273 DIN-Rail (parameterizable via WEB-GUI)
1x 10/100 Mbit/s autosensing via Board 7273
Output of the protocol for NTP/SNTP (RFC5905) and/or SINEC H1 time datagram. The full functionality of board 7273 is available.
Signal outputs from board 7274 DIN-Rail (parameterizable via WEB-GUI)
2x 10/100/1000 Mbit/s autosensing via Board 7274
Output of the protocol for NTP/SNTP (RFC5905) and/or SINEC H1 time datagram. The full functionality of board 7274 is available.
Activation options:
VLAN support according to IEEE 802.1q
Port aggregation (NIC Bonding/Teaming) with support of IEEE 802.3ad trunks
Parallel Redundancy Protocol (PRP) according to IEC 62439-3
Module 6870 is a GPS clock in a compact aluminium housing for 35mm DIN rail mounting (DIN EN 60715 TH35). The module is easily clipped onto the rail via a clip based on "snap-in" mechanism.
Module 6870 has two (2) individual and independent interfaces and is available in six (6) different interface versions. The interface COM0 is always implemented as RS232. The design of interface COM1 depends on the interface version of Module 6870.
The different interface versions of Module 6870 provide the below parameterizable signal outputs via the hmc (hopf Management Console):
Interface Version 1 (RS232/RS422)
Serial interface COM0: RS232
Output of serial string / connection to hmc (hopf Management Console)
Serial interface COM1: RS422
Output of serial string (independent of COM0)
3x optical coupler pulse outputs (potential free)
Output of cyclic pulses, DCF77 pulse (1Hz) or status messages
1x analogue output via BNC
Output of DCF77 antenna simulation (77.5kHz)
Interface Version 2 (RS232/RS232)
Serial interface COM0: RS232
Output of serial string / connection to hmc (hopf Management Console)
Serial interface COM1: RS232
Output of serial string (independent of COM0)
3x optical coupler pulse outputs (potential free)
Output of cyclic pulses, DCF77 pulse (1Hz) or status messages
1x analogue output via BNC
Output of DCF77 antenna simulation (77.5kHz)
Interface Version 3 (RS232/TTY passive)
Serial interface COM0: RS232
Output of serial string / connection to hmc (hopf Management Console)
Serial interface COM1: TTY passive
Output of serial string (independent of COM0)
3x optical coupler pulse outputs (potential free)
Output of cyclic pulses, DCF77 pulse (1Hz) or status messages
1x analogue output via BNC
Output of DCF77 antenna simulation (77.5kHz)
Interface Version 4 (RS232/Pulse Interface in TTL Level)
Serial interface COM0: RS232
Output of serial string / connection to hmc (hopf Management Console)
Serial interface COM1: TTL level (high and low active)
Output of PPS pulse or DCF77 pulse (1Hz) in TTL level
3x optical coupler pulse outputs (potential free)
Output of cyclic pulses, DCF77 pulse (1Hz) or status messages
1x analogue output via BNC
Output of DCF77 antenna simulation (77.5kHz)
Interface Version 5 (RS232/RS422/IRIG-B)
Serial interface COM0: RS232
Output of serial string / connection to hmc (hopf Management Console)
Serial interface COM1: RS422
Output of serial string (independent of COM0)
1x output in TTL level (high active)
Output of digital IRIG-B Signal IRIG-B B00x / IEEE C37.118-2005 (formerly IEEE 1344-1995) / AFNOR NF S87-500
3x optical coupler pulse outputs (potential free)
Output of cyclic pulses, DCF77 pulse (1Hz) or status messages
1x analogue output via BNC
Output of analogue IRIG-B Signal IRIG-B B12x / IEEE C37.118-2005 (formerly IEEE1344-1995) / AFNOR NF S87-500
Interface Version 6 (RS232/NGTS-Pulse)
Serial interface COM0: RS232
Output of serial string / connection to hmc (hopf Management Console)
Serial interface COM1:
Output of NGTS-pulse in RS232 level
3x optical coupler pulse outputs (potential free)
Output of cyclic pulses, DCF77 pulse (1Hz) or status messages
1x analogue output via BNC
Output of DCF77 antenna simulation (77.5kHz)
Module 4475 is a Sub-Master Clock Module in a compact aluminium housing for 35mm DIN rail mounting (DIN EN 60715 TH35). The module is easily clipped onto the rail via a clip based on "snap-in" mechanism.
The synchronisation of Sub-Master Clock Module 4475 can be performed via the following signals:
Serial hopf Master/Slave string from a hopf Master Clock
DCF77 pulse (1Hz)
Module 4475 provides the below parameterizable signal outputs via the hmc (hopf Management Con-sole):
Serial interface COM0: RS232
Output of serial string, cyclic pulses, DCF77 pulse (1Hz) or
digital IRIG-B signal B00x / IEEE C37.118-2005 (formerly IEEE 1344-1995) / AFNOR NF S87-500 or connection to the hmc (hopf Management Console)
Serial interface COM1: RS232 or RS422 (level parameterizable via the hmc)
Output of serial string, cyclic pulses, DCF77 pulse (1Hz) or
digital IRIG-B signal B00x / IEEE C37.118-2005 (formerly IEEE 1344-1995) / AFNOR NF S87-500
3x optical coupler pulse outputs (potential free)
Output of cyclic pulses, DCF77 pulse (1Hz) or status messages
1x TTL output
Output of serial string, cyclic pulses, DCF77 pulse (1Hz) or
digital IRIG-B signal B00x / IEEE C37.118-2005 (formerly IEEE 1344-1995) / AFNOR NF S87-500
1x analogue output via BNC
Output of DCF77 antenna simulation (77.5kHz) or
analogue IRIG-B signal B12x / IEEE C37.118-2005 (formerly IEEE 1344-1995) / AFNOR NF S87-500
Optionally available with additional:
1x or 2x FO outputs
1x FO output and 1x FO input
for the output of a serial string, cyclic pulses, DCF77 pulse (1Hz) or
digital IRIG-B signal B00x / IEEE C37.118-2005 (formerly IEEE 1344-1995) / AFNOR NF S87-500
Version with additional NTP / SINEC H1 LAN Board on request