Tarjetas multifuncionales PCI
Características del producto
MEINBERG PCI/PCIX Computer Clocks will synchronize the system time of PCI/PCI-X computers and provide an Application Programming Interface (API) to read accurate and precise time from within your own application. Key Features
PCI LOCAL BUS interface, 3.3V or 5V, 33MHz or 66MHz, PCI-X compatible
Plug and play
RS232 interface
Buffered hardware clock
Configurable time zone
Driver software for all popular operating systems
Overview: PCI Radio Clocks
GPS170PCI
GPS Clock for Computers (PCI/PCI-X Bus)
The Meinberg GPS170PCI slot card is the professional solution to your standalone computer synchronization requirements. Its various outputs like IRIG, serial time string or 1PPS can be used to provide synchronization to other devices. A powerful but easy to use API enables you to integrate a highly accurate time base in your own software and the two independent capture inputs add hardware timestamping of external events to your measurement application.
PCI511
DCF77 PCI Computer Clock (PCI/PCI-X Bus)
The PCI511 is a DCF77 radio clock for synchronization of computers with a PCI or PCI-X slot. It receives the longwave radio time signal from the DCF77 sender located near Frankfurt/Main, Germany.
TCR167PCI
IRIG Time Code Receiver and Generator for Computers (PCI/PCI-X bus)
The TCR167PCI receives IRIG-A/B or AFNOR time codes and can be used for synchronizing the system time of its host PC. The IRIG output of this card can generate an IRIG signal for other IRIG time code readers. The output format is independent from the incoming IRIG signal – a perfect solution to your IRIG conversion requirements.
TCR511PCI
IRIG Time Code Receiver for Computers (PCI/PCI-X bus)
The TCR511PCI receivesIRIG-A/B or AFNOR time codes and uses them to synchronize the system time of the host PC. The easy-to-use Meinberg API enables you to access this stable and accurate time base and its status information from within your own applications.
Especificaciones técnicas
MODEL | GPS170PCI |
Type of receiver | 6 channel GPS C/A-code receiver |
Type of antenna | Remote powered GPS antenna/converter unit, up to 300m distance to antenna with RG58 and up to 700m distance with RG213 cable |
Status info | Fail-LED shows that the internal timing has not been synchronized or that a system error occurred |
Lock-LED shows that the calculation of the position has been achieved after reset | |
Synchronization time | Max. 1 minute in normal operation mode, approx. 12 minutes after a cold start (discharged buffer battery) |
Frequency outputs | Frequency output 10 MHz, TTL level |
Pulse outputs | 3 Programmable TTL outputs, channels 0 and 1 per default configured as Pulse per second (TTL, RS232 level) and pulse per minute (TTL), pulse duration: 200 msec |
Channel 2 default configuration: DCF77 compatible pulses (TTL level), pulse width: 100/200 msec | |
Accuracy of pulse outputs | < ± 250ns |
Interface | Single serial RS232 interface |
Data format PC interface | Binary, byte serial |
(compatible with Meinberg DCF77 Slot Card PCI511) | |
Data format of interfaces | Baudrate: 300, 600, 1200, 2400, 4800, 9600, 19200 Baud data format: 7N2, 7E1, 7E2, 8E1, 8N1, 8N2 Time telegram: Meinberg Standard-Telegram, SAT, Uni Erlangen (NTP), SPA, NMEA0183 (RMC) or capture-telegramm |
Unmodulated time code output | DCLS, TTL into 50 ohm (active high or active low) |
Modulated time code output | IRIG AM sine wave signal: |
3Vpp (MARK), 1Vpp (SPACE) into 50 ohm | |
Generated time codes | IRIG B002: 100pps, DCLS signal, no carrier, BCD time of year |
IRIG B122: 100pps, AM sine wave signal, 1 kHz carrier, BCD time of year | |
IRIG B003: 100pps, DCLS signal, no carrier, BCD time of year, SBS time of day | |
IRIG B123: 100pps, AM sine wave signal, 1kHz carrier, BCD time of year, SBS time of day | |
IEEE1344: Code according to IEEE1344-1995, 100pps, AM sine wave signal, 1kHz carrier, BCD time of year, SBS time of day, IEEE1344 expansion for date, time zone, daylight saving and leap second in Control Funktions Segment | |
AFNOR: Code according to NFS-87500, 100pps, AM sine wave signal, 1kHz carrier, BCD time of year, complete date, SBS time of day | |
Time-Trigger inputs | Resolution: 100 nsec, triggered by falling TTL slope |
Time of trigger event readable via computer slot or optional second RS232-interface | |
Electrical connectors | BNC female connector for antenna BNC female connector for modulated timecode 9 pin sub D male connector |
Power supply | +5V, ca. 400mA |
+12V, ca. 170mA | |
Backup battery type | When main power supply fails, hardware clock runs free on quartz basis, almanac data is stored in RAM |
Life time of lithium battery min. 10 years | |
Board type | PCI card short (174,6 mm x 106,7 mm) |
Ambient temperature | 0 … 50°C / 32 … 122°F |
Humidity | Max. 85% |
Options | Additional independent RS232 interface |
Additional optical output for IRIG DCLS (instead of IRIG AM) | |
Oscillator upgrade OCXO-LQ (instead of TCXO) for extended Holdover capabilities | |
RoHS-Status of the product | This product is fully RoHS compliant |
WEEE status of the product | This product is handled as a B2B category product. In order to secure a WEEE compliant waste disposal it has to be returned to the manufacturer. Any transportation expenses for returning this product (at its end of life) have to be incurred by the end user, whereas Meinberg will bear the costs for the waste disposal itself. |
MODEL | PCI511 |
Type of receiver | Narrowband DCF77 quadrature receiver with automatic gain control, bandwidth: approx. 20Hz |
Status info | RF Signal: Indicated by LED, antenna alignment enhanced by utility program |
Free running: Indicated by LED and utility program | |
without RF signal the clock runs on quartz basis with an accuracy of ±1·10-6 (after 24 hours of synchronous operation) | |
Modulation: Indicated by LED and utility program | |
Reception Control | Multiple check of received time telegram |
Plausibility control by using two complete time telegrams | |
Pulse outputs | Pulses per second (RS232/TTL level) and per minute (TTL level), pulse duration: 100 msec, active high |
Interface | PCI LOCAL BUS (PCI), PCI-X compatible |
Data format PC interface | Binary, byte serial |
Data format of interfaces | Baudrate: 300, 600, 1200, 2400, 4800, 9600 baud |
Framing: 7E2, 8N1, 8E1, 8N2 | |
Output string: 32 ASCII characters with date, time and status information | |
Statusbyte | Informations about free running mode, daylight savings time and DST pre-switch anouncement, synchronization since last reset, GMT/UTC time and validity of the hardware clock data |
Electrical connectors | 9 pin sub D male connector |
BNC female connector | |
Computer interface | 33MHz- or 66MHz-PCI BUS (PCI-X) 32 Bit/3.3V or 5V card slot |
Backup battery type | In case of supply voltage failure the on-board RTC keeps the time based on XTAL for more than 150 hours (buffer capacitor) |
Optional: lithium backup battery (life time: 10 years) | |
Board type | PCI card short |
Ambient temperature | 0 … 50°C / 32 … 122°F |
Humidity | Max. 85% |
Scope of supply includes an active ferrite antenna AI01 and 5m of RG174 coaxial cable with BNC connectors. | |
Optional: AW02 with RG58 and patch cord, other length of cable | |
RoHS-Status of the product | This product is fully RoHS compliant |
WEEE status of the product | This product is handled as a B2B category product. In order to secure a WEEE compliant waste disposal it has to be returned to the manufacturer. Any transportation expenses for returning this product (at its end of life) have to be incurred by the end user, whereas Meinberg will bear the costs for the waste disposal itself. |
MODEL | TCR167PCI |
Status info | 2 status LEDs for indication of: detection of a correct code, synchronization of the internal timing and holdover mode |
Input signal | Modulated IRIG A/B, IEEE1344 or AFNOR signal, input insulated by transformer, input impedance 50 ohm, 600 ohm or 5 kohm selectable by jumper |
unmodulated (DC level shift) IRIG A/B, IEEE1344 or AFNOR signal, input insulated by photocoupler | |
Accuracy free run | ±1·10E-8 if the decoder was synchronous for at least 1 h |
IRIG Time Code Input | IRIG-A133, A132, A003, A002, B123, B122, B003, B002, IEEE1344 and AFNOR NFS 87-500 (other codes on request) |
Pulse outputs | Pulses per second (RS-232/TTL level) and per minute (TTL level), pulse duration 200 msec |
Precision of timebase | ±5 µsec referred to IRIG-reference marker |
Interface | Single serial RS232 interface |
Data format PC interface | Binary, byte serial |
Data format of interfaces | Baudrate: 300, 600, 1200, 2400, 4800, 9600, 19200, 38400 baud |
Framing: 7E2, 8N1, 8E1, 8N2 | |
Output string: 32 ASCII characters with date, time and status information | |
Statusbyte | Information about holdover mode, synchronization since last reset and the validity of the RTC data. |
Generated time codes | IRIG-B123, B122, B003, B002, IEEE1344 and AFNOR NFS 87-500 (other codes on request) |
Output signal | Modulated IRIG-B or AFNOR signal, 3 Vpp (high) and 1 Vpp (low) into 50 ohm |
unmodulated (DC Level Shift) IRIG-B or AFNOR signal, TTL into 50 ohm and RS-422, active high or active low selectable by jumper | |
Time-Trigger inputs | Triggered by falling TTL slope |
Time of trigger event readable via computer slot or optional second RS232-interface | |
Status inputs | 2 status inputs, TTL level, readable via PCI/PCI-X bus |
Electrical connectors | Female BNC-connectors |
male 9-pole D-Sub connector | |
Computer interface | 33MHz- or 66MHz-PCI BUS (PCI-X) 32 Bit/3.3V or 5V card slot |
Backup battery type | When main power supply fails, hardware clock runs free on quartz basis, life time of lithium battery min. 10 years |
Board type | PCI card short (174,6 mm x 106,7 mm) |
Ambient temperature | 0 … 50°C / 32 … 122°F |
Humidity | Max. 85% |
Options | – Optical input and/or output for time codes, ST connector for GI 50/125µm or GI 62,5/125µm gradient fibre |
– DDS frequency synthesizer 1/8 Hz up to 10 MHz, TTL into 50 ohm, sinewave 1.5 Vrms | |
– OCXO LQ (specifications look at oscillator options) for higher accuracy in holdover mode | |
RoHS-Status of the product | This product is fully RoHS compliant |
WEEE status of the product | This product is handled as a B2B category product. In order to secure a WEEE compliant waste disposal it has to be returned to the manufacturer. Any transportation expenses for returning this product (at its end of life) have to be incurred by the end user, whereas Meinberg will bear the costs for the waste disposal itself. |
MODEL | TCR511PCI |
Status info | 3 status LEDs for indication of: detection of a correct code, synchronization of the internal timing and holdover mode |
Input signal | Modulated IRIG A/B or AFNOR signal, input insulated by transformer, input impedance 600 ohm (optional 50 ohm) |
unmodulated (DC level shift) IRIG A/B or AFNOR signal, input insulated by photocoupler | |
Accuracy free run | ±1·10E-6 if the decoder was synchronous for at least 1 h |
IRIG Time Code Input | IRIG-A133, A132, A003, A002, B123, B122, B003, B002 and AFNOR NFS 87-500 (other codes on request) |
Pulse outputs | Pulses per second (RS232/TTL level) and per minute (TTL level), pulse duration 200 msec |
Precision of timebase | ±5 µsec referred to IRIG-reference marker |
Interface | Single serial RS232 interface |
Data format PC interface | Binary, byte serial |
Data format of interfaces | Baudrate: 300, 600, 1200, 2400, 4800, 9600, 19200, 38400 baud |
Framing: 7E2, 8N1, 8E1, 8N2 | |
Output string: 32 ASCII characters with date, time and status information | |
Statusbyte | Information about holdover mode, synchronization since last reset and the validity of the RTC data. |
Electrical connectors | 9 pin sub D male connector |
BNC female connector | |
Computer interface | 33MHz- or 66MHz-PCI BUS (PCI-X) 32 Bit/3.3V or 5V card slot |
Backup battery type | When main power supply fails, hardware clock runs free on quartz basis, life time of lithium battery min. 10 years |
Board type | PCI card short |
Ambient temperature | 0 … 50°C / 32 … 122°F |
Humidity | Max. 85% |
RoHS-Status of the product | This product is fully RoHS compliant |
WEEE status of the product | This product is handled as a B2B category product. In order to secure a WEEE compliant waste disposal it has to be returned to the manufacturer. Any transportation expenses for returning this product (at its end of life) have to be incurred by the end user, whereas Meinberg will bear the costs for the waste disposal itself. |