Motorola Type II refers to the second generation Motorola trunked radio systems that replaced fleets and subfleets with the concept of talkgroups and individual radio IDs. [1] [2] There are no dependencies on fleetmaps, therefore there are no limitations on how many radio IDs can participate on a talkgroup. This allows for greater flexibility for the agency. When scanning Motorola IDs, each Type II user ID appears as an even 4- or 5-digit number without a dash (example 2160).
With the introduction of Type II, the "System ID" was also introduced. This is a four digit identifier unique to each trunking system. The purpose of the System ID is to allow radios to operate only on that specific system, and to identify each system. The System ID also allows for enhanced security because a radio now requires a System Key, unique to the System ID in order to be programmed onto any given system. Type I systems do not use unique System IDs, thus the possibility exists for overlapping coverage in busy areas.
The term SmartNet refers to a set of features that make Motorola Type I and II trunked systems APCO-16 compliant. These include better security, emergency signaling, dynamic regrouping, remote radio monitoring, and other features.
The following is true of a Type II SmartNet system:
Type II SmartNet systems uses status bits for special transmissions such as Emergency, Patches, DES/DVP encrypted transmissions, and Multiselects on Motorola Trunking systems. Motorola Trunking radios directly interpret these status bits for their special functions, therefore no difference is noticed by the user. Some Scanners may interpret these special talkgroup status bits as different talkgroups entirely. Below is the conversion chart for these special status bits:
Dec ID + # Usage ------------------------------------------------------- ID+0 Normal Talkgroup ID+1 All Talkgroup ID+2 Emergency ID+3 Talkgroup patch to another ID+4 Emergency Patch ID+5 Emergency multi-group ID+6 Not assigned ID+7 Multi-select (initiated by dispatcher) ID+8 DES Encryption talkgroup ID+9 DES All Talkgroup ID+10 DES Emergency ID+11 DES Talkgroup patch ID+12 DES Emergency Patch ID+13 DES Emergency multi-group ID+14 Not assigned ID+15 Multi-select DES TG
Therefore, if a user was transmitting a multi-select call on talkgroup 1808, the trunktracker would actually receive those transmissions on 1815. Some common uses of these status bits are as follows:
SmartNet systems also added a scanning feature, called "Priority Monitor," which permitted priority scanning of talkgroups. The subscriber radio has the choice of selecting two priority talkgroups (one high and one low priority in addition to eight non-priority talkgroups). When the radio is in the middle of a voice call it is continually receiving sub-audible data on the voice channel indicating the talkgroup activity on the other channels of the system. If a talkgroup ID appears which is seen as a higher priority than the active call, the radio will switch back to the control channel to look for the late entry data word indicating which channel to tune to.
This voice channel sub-audible datastream has a limitation in the number of bits it can use to represent a talkgroup ID. Because of this the last digit of the talkgroup ID (right-most) is removed. The radio then presumes any ID it receives is an odd-numbered talkgroup ID. This is the reason behind odd numbering of talkgroups on SmartNet systems. If the systems administrator assigned odd AND even numbered talkgroups there would be a lot of confusion with the Priority Monitor feature when reading the data over the voice channel. This was a problem with the Radio Shack PRO-92 with the 1.00 firmware as it used only the sub-audible data to track trunked systems.
SmartZone systems are Motorola Type II systems that are networked together via microwave or land-line data circuits to provide multi-site wide-area communications. Many large public safety and state agencies use SmartZone systems for wide-area communications. Each individual trunked system is considered a site, or a sub-system of a Simulcast system, and is controlled by the Zone Controller, which is the master controller for all activity and is where all network links terminate. The primary types of sites are 6809 (named after the type of microprocessor used, and can be single or simulcast configurations), MTC 3600 (introduced to take the place of the 6809, and named for the speed of the control channel data stream in baud), and IntelliRepeaters (single-site only, a type of controllerless site). SmartZone allows efficient use of channels at each site by feature called "Dynamic Site Assignment", or DSA. DSA's simple purpose is to determine whether a site actually needs to broadcast a call or not. In order to make this feature work subscriber radios are required to affiliate, or send in their radio identification and selected talkgroup information whenever they power-up, change channels, or change sites. A programmable "timeout" can be set to automatically query any given radio to determine its affiliation status on the network. These affiliations are compiled into a table which the Zone Controller maintains. When a call is requested at a site, the Zone Controller determines which site that talkgroup is registered at and routes that audio via a switch, referred to as the Ambassador Electronics Bank (AEB), to the appropriate channel at the site. SmartZone allows seamless roaming between sites that is transparent to the user. To the user, the system, when properly configured, appears as just one large system, when in fact the user is actually roaming between several different sites at different locations.
The characteristics of a Motorola SmartZone system are similar to SmartNet systems with the following changes:
The system can be programmed to send to certain tower sites certain talkgroups even with no user affiliated on that TG. This allows users who are on another TG but scanning to be able to hear traffic on that particular TG. Large utilities, like Entergy use this on their multiZoned network. At Entergy, TG 29 is used for interZone communications (An analog solution that people in the Texas Telecom group of Entergy (Current Texas Telecom supervisor Steve Gomez, former employee Chris Boone and others) came up with using certain boards extra to the CEB or Central Electronics Bank) to feed the 2175 Hz Push To Talk tone to the other Zone controllers and a Tellabs audio bridge. The digital Omnilink option from Motorola is Mother M's answer to the problem and allows private call and all other features to work across Zones but Entergy has not bought the option since the analog solution worked though none of the special features within a Zone can work..only clear communication between all users happens but it sure was cheaper!) Entergy's 4 state SmartZone system was the largest in the world when it went online in 1995-96, with 50+ sites in each Zone.
The new MZC 3000 SmartZone Zone Controller introduced an Ethernet based connection point for sites, consoles, data broadcast boxes, and C/DIUs. This Zone Controller supports 64 sites in addition to the other pieces of hardware that previously limited the number of sites as the connection ports were shared.
Communication problems and successes played an important role during the September 11 attacks in 2001 and their aftermath. Systems were variously destroyed or overwhelmed by loads greater than they were designed to carry, or failed to operate as intended or desired.
Automatic Link Establishment, commonly known as ALE, is the worldwide de facto standard for digitally initiating and sustaining HF radio communications. ALE is a feature in an HF communications radio transceiver system that enables the radio station to make contact, or initiate a circuit, between itself and another HF radio station or network of stations. The purpose is to provide a reliable rapid method of calling and connecting during constantly changing HF ionospheric propagation, reception interference, and shared spectrum use of busy or congested HF channels.
Terrestrial Trunked Radio, a European standard for a trunked radio system, is a professional mobile radio and two-way transceiver specification. TETRA was specifically designed for use by government agencies, emergency services, for public safety networks, rail transport staff for train radios, transport services and the military. TETRA is the European version of trunked radio, similar to Project 25.
The Government Radio Network (GRN) is a network of various systems in place across Australia that enable statewide trunked radio communication. The network operates through inter-linked sites for government and public services such as police, ambulance, fire, or roads authorities which require such a system to function properly. The main aim of the GRN is to consolidate all resources into one network, ensuring greater coverage and reliability than if each department had its own independent communication system. The existence of the GRN also reduces the amount of government money and resources needed to maintain communication between units of emergency and public service branches. Last, it allows effective intercommunication among these services in times of national or state emergency for coordination of wide-scale actions.
Professional mobile radio are person-to-person two-way radio voice communications systems which use portable, mobile, base station, and dispatch console radios. PMR systems are based on such standards as MPT-1327, TETRA, APCO 25, and DMR which are designed for dedicated use by specific organizations, or standards such as NXDN intended for general commercial use. These systems are used by police, fire, ambulance, and emergency services, and by commercial firms such as taxis and delivery services. Most systems are half-duplex, in which multiple radios share a common radio channel, and only one can transmit at a time. Transceivers are normally in receive mode, the user presses a push-to-talk button on his microphone when he wants to talk, which turns on his transmitter and turns off his receiver. They use channels in the VHF and UHF bands, giving them a limited range, usually 3 to 20 miles depending on terrain. Output power is typically limited to 4 watts. Repeaters installed on tall buildings, hills or mountain peaks are used to increase the range of systems.
A two-way radio is a radio transceiver, which is used for bidirectional person-to-person voice communication with other users with similar radios, in contrast to a broadcast receiver, which only receives transmissions.
Project 25 is a suite of standards for interoperable digital two-way radio products. P25 was developed by public safety professionals in North America and has gained acceptance for public safety, security, public service, and commercial applications worldwide. P25 radios are a direct replacement for analog UHF radios, but add the ability to transfer data as well as voice, allowing for more natural implementations of encryption and text messaging. P25 radios are commonly implemented by dispatch organizations, such as police, fire, ambulance and emergency rescue service, using vehicle-mounted radios combined with repeaters and handheld walkie-talkie use.
A trunked radio system is a two-way radio system that uses a control channel to automatically assign frequency channels to groups of user radios. In a traditional half-duplex land mobile radio system a group of users with mobile and portable two-way radios communicate over a single shared radio channel, with one user at a time talking. These systems typically have access to multiple channels, up to 40-60, so multiple groups in the same area can communicate simultaneously. In a conventional (non-trunked) system, channel selection is done manually; before use, the group must decide which channel to use, and manually switch all the radios to that channel. This is an inefficient use of scarce radio channel resources because the user group must have exclusive use of their channel regardless of how much or how little they are transmitting. There is also nothing to prevent multiple groups in the same area from choosing the same channel, causing conflicts and 'cross-talk'. A trunked radio system is an advanced alternative in which the channel selection process is done automatically by a central controller (computer).
Dispatch is a procedure for assigning employees (workers) or vehicles to customers. Industries that dispatch include taxicabs, couriers, emergency services, as well as home and commercial services such as maid services, plumbing, HVAC, pest control and electricians.
Selcall is a type of squelch protocol used in radio communications systems, in which transmissions include a brief burst of sequential audio tones. Receivers that are set to respond to the transmitted tone sequence will open their squelch, while others will remain muted.
Motorola Trunked Radio for telecommunications is a trunked radio system developed by Motorola.
The introduction of Motorola Type II SmartZone introduced the IntelliRepeater. An IntelliRepeater, or IR, site is a bare-bones trunked site which has no database of users or talkgroups. It is simply sophisticated software running on a Quantar repeater. It is meant to be controlled by the Zone Controller and to be commanded as to who has permission and who does not. There are some very basic restrictions in the event Site Trunking does occur but for all intents and purposes once an IR site is in Site Trunking mode it's a free-for-all site.
Within radio technology, LTR Standard systems have no dedicated control channel. All control data is sent as subaudible data along with voice transmissions. Each system site can have any number of radio channels from 1 through a maximum of 20. Each channel is made up of one channel controller connected to one radio repeater operating on one frequency. One controller is assigned as the master or system controller and all the other controllers report to it via a trunking data buss. This connection allows all the repeaters at a site to operate as one LTR system.
LTR MultiNet Systems are APCO-16 compliant LTR Trunked Radio Systems and thus are mostly found in use as public safety systems. LTR MultiNet systems usually have one or more "status channels" that act like a control channel in a Motorola or EDACS system, however these channels can also carry voice transmissions simultaneously.
In a conventional, analog two-way radio system, a standard radio has noise squelch or carrier squelch, which allows a radio to receive all transmissions. Selective calling is used to address a subset of all two-way radios on a single radio frequency channel. Where more than one user is on the same channel, selective calling can address a subset of all receivers or can direct a call to a single radio. Selective calling features fit into two major categories—individual calling and group calling. Individual calls generally have longer time-constants: it takes more air-time to call an individual radio unit than to call a large group of radios.
MDC, also known as Stat-Alert, MDC-1200 and MDC-600, is a Motorola two-way radio low-speed data system using audio frequency shift keying, (AFSK). MDC-600 uses a 600 baud data rate. MDC-1200 uses a 1,200 baud data rate. Systems employ either one of the two baud rates. Mark and space tones are 1,200 Hz and 1,800 Hz. The data are sent in bursts over the radio system's voice channel.
Specialized Mobile Radio (SMR) may be an analog or digital trunked two-way radio system, operated by a service in the VHF, 220, UHF, 700, 800 or 900 MHz bands. Some systems with advanced features are referred to as an Enhanced Specialized Mobile Radio (ESMR). Specialized Mobile Radio is a term defined in US Federal Communications Commission (FCC) regulations. The term is of US regulatory origin but may be used in other regions to describe similar commercial systems which offer a radio communications service to businesses.
ASTRO 25 is a generation off ASTRO digital two-way radio communications by Motorola Solutions. Motorola first introduced digital two-way radio in the U.S. in 1991 under the name ASTRO Digital Solutions.
StarCom21 is a statewide public safety trunked radio system in Illinois. Owned and operated by Motorola Solutions, the State of Illinois is a major partner in the system. It is used by all Illinois State Police posts as well as the Illinois State Toll Highway Authority (ISTHA) Maintenance and Police divisions.
NXDN stands for Next Generation Digital Narrowband, and is an open standard for public land mobile radio systems; that is, systems of two-way radios (transceivers) for bidirectional person-to-person voice communication. It was developed jointly by Icom Incorporated and Kenwood Corporation as an advanced digital system using FSK modulation that supports encrypted transmission and data as well as voice transmission. Like other land mobile systems, NXDN systems use the VHF and UHF frequency bands. It is also used as a niche mode in amateur radio.