Secure Communication System 2.0

A state-of-the-art digital intercommunication System based on Palomar’s field proven TDM digital switching technology used in air traffic control and custom telephony applications.

A state-of-the-art digital intercommunication System based on Palomar’s field proven TDM digital switching technology used in air traffic control and custom telephony applications.  The Secure Communications System 2.0 provides a complete solution for systems demanding high quality secure digital voice/data switching and conferencing with combined system management.  A unique distributive architecture is easily customizable for a tailored design and strategic placement of components. The system is a secure digital switch with isolated buses to carry multiple levels of secure data which extends from radio and crypto assets and is maintained throughout all components. The SCS 2.0 coordinates modes of transceivers, cryptos, data modems and host computers with controls at Operator Positions.

System Architecture

The flexible and modular SCS 2.0 architecture can be scaled from simple internal/external communication systems up to full command and control systems that include crypto and data link assignments, clear/secure radio relay, clear/secure simulcast, unlimited conference networks and selective dial-up. Systems can be interfaced to mission computers via standard network links.

Features and Benefits

Dependable Technology

High Speed State-of-the-Art Digital Architecture
Secure Digital Switch with Isolated Multi-Level Security
Digital Voice and Wideband Switching
Crypto Switching and Radio Relay
Digital Recording and Playback with External Disk
Gigabit Ethernet Fiber LAN I/O
VoIP Ports (Optional)
Up to 2000 Voice/Data Sources
Extensive Interphone Conferencing
Optional Telephone Switching Functions (PBX)
Very Low Deterministic System Latency
Binaural Audio (Spatial Optional)
Redundancy
Extensive BIT
No Extra Wires for Emergency Backup Mode

Compatibility and Interfaces

Complete Management of Configuration
Unique Modular Distributed Architecture Allows Tailored Designs and Fault Tolerance
Radio Priority Configurable for Each Position

Certified Tough & Secure

Designed to RTCA/DO160D
Tested to MIL-STD-810D
MIL-STD-461
NSTISSAM 1-92
NSTISSAM / TEMPEST 2-95

More Information

Radio Receive Levels:
Programmable 0.25 Vrms to 15 Vrms
150Ω, 600Ω and 20KΩ – programmable

Radio Transmit Levels:
Programmable output level
150Ω and 600Ω – programmable

Microphone Input:
Low level dynamic microphones
High level amplified microphones

Headphone Output:
Binaural and Monaural
High level (300Ω cup) and Low level (19Ω)

Typical Frequency Response:
300 Hz – 3,400 Hz
50 Hz – 10 kHz
20 Hz – 20 kHz

Crosstalk Isolation:
Red to Black Greater than 100 dB @ 1 kHz

Audio and Data Latency:
2 milliseconds Max (crew position to radio
port or radio port to radio port)

Audio Quality
Distortion <3%
Idle Channel Noise –56 dBr

Electrical Power:
28 V per MIL-STD-704

Environmental:
Designed to RTCA/DO160D
Tested to MIL-STD-810D

EMI/EMC:
MIL-STD-461

TEMPEST:
NSTISSAM 1-92

The Flight Deck Audio Panel (FDAP) provides flight crewmembers access to conference interphone networks, radio channels, guard channels, NAVAIDs, and selective interphone networks.  The panel features separate volume controls for the individual channels as well as a master volume control.  LEDs above channel selector buttons indicate whether channels have been selected for receive or transmit and also flash when receive or transmit channels have activity. The FDAP supports multiple levels of security and can operate as a stand-alone unit or in conjunction with legacy flight deck audio control panels.

The Audio Switching Unit (ASU) provides the connections between the communications assets and each crewmember. The ASU is a modular TEMPEST secure digital unit that is integrated into the communications suite to provide the necessary control and switching of all internal and external, clear and secure voice and data lines.   The ASU features multi-level security, non-blocking digital switching using TDM buses. The high speed TDM approach has high capacity and very low, deterministic latency, thus providing high quality of service and high-quality audio. The ASU interfaces with communications assets can include T1/E1 (PSTN), Gigabit Ethernet (wire or fiber optic), analog (four-wire or two-wire), ISDN and VoIP. The modular architecture of the ASU allows for the addition of interface cards for new interface standards as they develop, or addition of new protocols utilizing software changes to existing cards.  The ASU can operate as a stand-alone unit or with multiple ASUs. ASUs interface with each other via redundant high speed (OC3) serial data links.

The MSU provides interphone channels to remote aircraft locations for maintenance functions or remote crew interphone stations. Each MSU provides a headset connection, adjustable volume control, HOT MIC, and CALL functions.  MSUs come in a variety of sizes.

The Mission Audio Panel (MAP) provides access to internal and external communications channels while supporting multiple levels of security.   The MAP is a binaural unit, which gives the user complete control and status of the communications assets.  Controls allow the users to select radio and intercom channels for receive and transmit as well as set the volume, stereo balance or spatial location for each channel. The keypad allows one to control selective intercom, VOX, Hot Mic, channel security, recorder playback, and so on. The color LCD display shows the level of security, radio frequency, channel name, along with receive and transmit activity for each channel.  The MAP has master volume controls for two users.

The Handset Audio Panel (HAP) provides access to internal communications channels. The HAP connects to a handset with a wall hook to provide the user audio interface. The keyboard allows the user to call  other crewmembers on conference or selective intercom channels.