ORCA Technologies Products

Trestles GPS Synchronized Time and Frequency System

Trestles GPS Synchronized Time and Frequency System

The Trestles Time and Frequency System is a rackmount GPS Receiver designed for time and frequency applications including NTP and PTP network time server requirements. With 4 option module slots, and up to 4 user-configured outputs per module, Trestles is adaptable to many different applications. Option modules include our Universal Card, Code Output card, T1 module, Have Quick module, Low Phase Noise frequency card and fiber option input and output cards.

GS-301 GPS Time and Frequency Receiver

GPS Time and Frequency Receiver (GS-301) – Network Time Server / Time Code Generator / Frequency Generator

Accurate yet affordable, the Model GS-301 is a rackmount GPS Time and Frequency Receiver with functionality for Network Time Server and Time Code applications. The GS-301 is an excellent choice for applications requiring a single box performing specific tasks without asking you to buy an overbuilt unit with features you simply don’t need.

GS-101B GPS/IRIG-B Synchronized Time Code Generator

GS-101B GPS/IRIG-B Synchronized Time Code Generator

The Model GS-101B GPS/IRIG-B Synchronized Time Code Generator (STCG) is a low cost high performance STCG that provides many features not found on higher cost units. When operated in the GPS mode, time and rates are precisely referenced to UTC. When operated in the IRIG mode, time and rates are precisely referenced to the IRIG generating source. Time, position and status are available on the RS-232 I/O and the USB Ports.

GS-102B GPS/IRIG-B Synchronized Time Code Generator

GS-102B GPS/IRIG-B Synchronized Time Code Generator

The Model GS-102B GPS/IRIG-B Synchronized Time Code Generator (STCG) is a low cost high performance STCG that provides many features not found on higher cost units. When operated in the GPS mode, time and rates are precisely referenced to UTC or when operated in the IRIG mode time and rates are precisely referenced to the IRIG generating source. Time, position and status are available on the RS-232 I/O and the USB Ports.

GS-102B-FPC Field Portable Clock GPS/IRIG-B Synchronized Time Code Generator

GS-102B-FPC Field Portable Clock GPS/IRIG-B Synchronized Time Code Generator

The Model GS-102B-FPC GPS/IRIG-B Synchronized Time Code Generator (STCG) is a low cost high performance STCG that provides many features typically found on higher cost units. When operated in the GPS mode, time and rates are precisely referenced to UTC. When operated in the IRIG mode, time and rates are precisely referenced to the IRIG generating source. Time, position and status are available on the RS-232 I/O and the USB Ports.

TTGM-101B GPS / Time Code Synchronized Generator

TTGM-101B GPS / Time Code Synchronized Generator

The Model TTGM-101 GPS/Time Code Synchronized PTP Grandmaster, SNTP Server and Time Code Generator is ideal for applications utilizing GPS or time code input to generate IEEE-1588 PTPv2, SNTP or various time codes. Time and rate outputs are precisely referenced to GPS or time code input. The TTGM will also synchronize to a 1PPS input. In addition to PTPv2 and SNTP operation, IRIG A, B, G and NASA36 time code outputs, time is available on the USB port. Limited SNMP trap operation is also standard on this versatile unit.

TT-101B TimeTap PTPv2 / Time Code Synchronized Generator

The Model TT-101B PTP / Time Code Synchronized Generator is a low cost high performance unit that provides many features typically found on higher cost units. The TimeTap is able to synchronize to time derived from PTP two-step time packets. When operated in the IRIG mode, time and rates are precisely referenced to the IRIG generating source. In addition to IRIG B, A, G and NASA36 time code outputs, time is available on the USB port.

SD-218 Switch Distribution Amplifier

SD-218 Switch Distribution Amplifier

The ORCA Technologies SD-218 switch and distribution unit is an intelligent switching, monitoring and distribution system, packaged in a 1U rack-mount chassis. The unit consists of 2 inputs BNC’s labeled A and B that can be routed to the 18 outputs BNCs. Control of the switch is operating mode dependent. The instrument is designed with 50 Ω source impedance and will provide unity gain from input to output.

SMS-101 System Matrix Switch Distribution Amplifier

SMS-101 System Matrix Switch Distribution Amplifier

The System Matrix Switch (SMS-101) unit provides signal distribution via a sophisticated switch matrix amplifier system. The unit consists of 4 inputs BNCs labeled A, B, C and D that can be routed to the 12 outputs BNC’s labeled OUT1 through OUT12. Each of the 12 outputs has a dedicated 1 of 4 selector/switch that is used to determine the signal source (A, B, C D) for the output amplifier. Control of the switch is operating mode dependent. The instrument is designed with 50 ω source impedance and will provide unity gain from input to output. There is a control on each of the A, B, C and D inputs to provide a gain of ½ (for operation without 50 ω termination).

TS-101 TimeTap Test Set

TS-101 PTP / TimeTap Test Set

Model TS-101 portable rugged test set that measures an external time signal to UTC via a GPS Synchronized Receiver. Features: Compares input time to reference Input can be PTP, IRIG-B or 1PPS Reference synchronized to GPS Reference can be IRIG-B or 1PPS Resolution to better than 1 usec Front panel measurement Graphical User Interface LCD display Rugged / Portable case Windows GUI for setup, control and time interval measurement display Product Description The Model TS-101 is a portable and rugged test set that measures an external time signal (PTP, IRIG-B or 1PPS) to UTC via a GPS Synchronized Receiver. Onceread more

CD-101 6-Digit Display

CD-101 6-Digit Display

The ORCA Technologies Airborne Time Display, Model CD-101 decodes and displays time code or Network Precision Time Protocol (PTP) input. The display provides Hours, Minutes and Seconds on a bright OLED display. The display intensity is user adjustable via the front panel switches. In the absence of a time reference, the unit continues to flywheel using its internal crystal time base.