PCIe Clocks

Meinberg logo

Time Signal Receivers for the PCI Express Bus

meinberg-pcie

GPS180PEX

Low Profile GPS Clock (PCI Express)

The board GPS180PEX is designed as a low profile board for computers with PCI Express interface. The rear slot cover integrates the antenna connector, a BNC connector for modulated time codes, a 9pin D_SUB male connector and two status LEDs. With this standard height bracket you can use the D_SUB connector for I/O signals like RS-232 – PPS and PPM and you can use this interface for firmware updates.

The GPS180PEX will be delivered with a low profile bracket. You can mount this part instead of the standard bracket, to run the GPS180PEX in computers with smaller housing (e.g. 1U server).

GLN180PEX

Low Profile GPS / GLONASS Clock (PCI Express)

The board GLN180PEX is designed as a low profile board for computers with PCI Express interface. The rear slot cover integrates the SMA antenna connector, a BNC connector for modulated time codes, a 9pin D-SUB male connector and four status LEDs (2mm light pipes). With this standard height bracket you can use the D-SUB connector for I/O signals like RS-232 – PPS and PPM and you can use this interface for firmware updates.

The GLN180PEX will be delivered with a low profile bracket. You can mount this part instead of the standard bracket, to run the GLN180PEX in computers with smaller housing (e.g. 1U server).

The Monitoring Software allows the selection of the references (navigation systems)

  • GPS and GLONASS (standard)
  • GPS only
  • GLONASS only

PTP270PEX

IEEE1588-2008 slot card for computers (PCI Express)

The PTP270PEX provides sub-microsecond accuracy for computers. The card has been designed to add ultra precise time stamping capabilities to your data acquisition and measurement applications. The PCI Express card can be installed in any single lane PCIe slot and offers an impressive selection of time, pulse and frequency outputs.

PZF180PEX

Low Profile DCF77 Clock (PCI Express)

The board PZF180PEX is designed as a low profile board for computers with PCI Express interface. The rear slot cover integrates the antenna connector, a BNC connector for modulated time codes, a 9pin D_SUB male connector and two status LEDs. With this standard height bracket you can use the D_SUB connector for I/O signals like RS-232 – PPS and PPM and you can use this interface for firmware updates.

The PZF180PEX will be delivered with a low profile bracket. You can mount this part instead of the standard bracket, to run the PZF180PEX in computers with smaller housing (e.g. 1U server).

TCR170PEX

IRIG Time Code Receiver and Generator for Computers (PCI Express)

The TCR170PEX 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.

TCR511PEX

IRIG Time Code Receiver for Computers (PCI Express)

Reception of IRIG-A/B or AFNOR time codes for synchronization of computers and networks in PCI Express form factor, can be used in both low profile and regular PCIe slots.

GPS180AMC

AdvancedMC Satellite Clock

The AdvancedMC (AMC) standard defines the mechanical an electronical requirements of a board for integration onto a carrier board or an independent slot card for MicroTCA (Micro Telecommunications Computing Architecture) systems.The satellite radio clock GPS180AMC is a module in the “Single, Mid-Size AMC Module” format, designed in the AdvancedMCTM (AMC) standard. It uses the information of the GPS system to obtain extremely accurate time information and to adjust the master oscillator to its set point. The module GPS180AMC has two possible areas of application: The use as time standard to synchronize the system time of a computer, inside a MicroTCA, and to generate reference clock pulses for the construction of hierarchical clock pulse structures.

In addition to the signals of the AMC bus the GPS180AMC provides different input and output signals via a connector in the front panel. The data transmission with the computer, for example of a MicroTCA system, can be made via a PCI Express connection of the AMC backplane.

Meinberg logo