Low-Power Transmitters (10W) at one glance:

The TKT-82/R10S is the latest and most up-to-date digital television transmitter in the UHF band used for television broadcasting.

Full-band digital transmitter: The transmitter components such as Modulator and Power Amplifier are adjustable across the UHF band, so they can be used for all channels in the UHF band without replacing parts.

Compressed Size: When a digital transmitter is used to distribute synchronization with an analog transmitter at the same station s simultaneity, the small and compact size of this transmitter appears a great advantage.

High level of reliability: In this series, the transmitters use a single method to display the status of each component to prevent major and basic errors. This is how the transmitter’s stability and sustainability are assured.

Signal quality assurance: Adaptable Digital Correction (ADC) is fully effective and automatically corrected and guarantees the best quality of the transmitter signal on the antenna. With the ADC capability, the process of maintenance and preservation quality is significantly upgraded.

Easy Operation: This transmitter is equipped with an LCD touch screen, which allows the operator to easily check the performance of the transmitter at a glance.

Flexibility: In order to improve the flexibility of the digital transmitters and the PA lifetime, a wide range of combined circuit design has been considered in this series of transmitters.

Medium-Power Transmitter (50W) at one glance:

• Support DVBT/T2 standard
• Transmitter design based on the structure of (1+1) and (1+0(
• Full-band transmitter
• Ensuring signal quality by receiving standard technical parameters from the transmitter
• Included linear Pre-Correction and non-linear correction inside the modulator
• Using the latest generation of power transistors (LD-mos)
• Protection circuits included in the transmitter such as temperature, current, voltage, fan, return signal (Reflection) and power increase (Over Drive (
• Use of standard switching power supply (Universal (
• Ability to display all parameters of the transmitter through the touch screen
• Ability to control and evaluate transmitter performance remote
• Ability to evaluate the sender’s performance by sending SMS
• ability to record errors and provide error reports through the touch screen
• Designing and installing the automatic gain control circuit (AGC) in the transmitter

Medium-Power Transmitter (100W) at one glance:

• Support DVBT/T2 standard
• Transmitter design based on the structure of (1+1) and (1+0(
• Full-band transmitter
• Ensuring signal quality by receiving standard technical parameters from the transmitter
• Included linear Pre-Correction and non-linear correction inside the modulator
• Using the latest generation of power transistors (LD-mos)
• Protection circuits included in the transmitter such as temperature, current, voltage, fan, return signal (Reflection) and power increase (Over Drive (
• Use of standard switching power supply (Universal (
• Ability to display all parameters of the transmitter through the touch screen
• Ability to control and evaluate transmitter performance remote
• Ability to evaluate the sender’s performance by sending SMS
• Ability to record errors and provide error reports through the touch screen
• Designing and installing the automatic gain control circuit (AGC) in the transmitter

Medium-Power Transmitter (200W) at one glance:

• Support DVBT/T2 standard
• Transmitter design based on the structure of (1+1) and (1+0(
• Full-band transmitter
• Ensuring signal quality by receiving standard technical parameters from the transmitter
• Included linear Pre-Correction and non-linear correction inside the modulator
• Using the latest generation of power transistors (LD-mos)
• Protection circuits included in the transmitter such as temperature, current, voltage, fan, return signal (Reflection) and power increase (Over Drive (
• Use of standard switching power supply (Universal (
• Ability to display all parameters of the transmitter through the touch screen
• Ability to control and evaluate transmitter performance remote
• Ability to evaluate the sender’s performance by sending SMS
• Ability to record errors and provide error reports through the touch screen
• Designing and installing the automatic gain control circuit (AGC) in the transmitter

High – Power Transmitters (1KW) at one glance:

• Support for DVB-T/T2 standard
• Support MFN and SFN mode
• Transmitter design based on the structure of (1+1), (1+2) and (1+3)
• Existence of linear and non-linear Adaptive Digital Correction (ADC) to optimize transmitter performance
• Ability to use two ASI and TSOIP inputs in the transmitter
• Designing an advanced cooling system based on liquid cooling technology
• Ability to cover the transmitter equipment in the entire UHF band
• Automatic change of the channel of the transmitter according to the command of Exteire
• Ability to automatically control coolant pumps in the transmitter
• Use of accurate temperature sensors to display the liquid temperature in the flow
• Ability to control and evaluate remote transmitter performance
• Ability to evaluate the sender’s performance by sending SMS
• The possibility of recording errors and providing error reports through the touch screen display
• Having a precise control system to control the main sender and reserve
• Designing amplifier classes with the same power and using up-to-date technology modules
• Using separate protection circuits for amplifier classes such as return signal, temperature, current, voltage and overdrive
• Using the automatic gain control (AGC) circuit separately in the amplifier stages
• Ability to adjust the automatic phase in the amplifier floors
• Ability to display all parameters of the transmitter through the touch screen display

High – Power Transmitters (2KW) at one glance:

• Support for DVB-T/T2 standard
• Support MFN and SFN mode
• Transmitter design based on the structure of (1+1), (1+2) and (1+3)
• Existence of linear and non-linear Adaptive Digital Correction (ADC) to optimize transmitter performance
• Ability to use two ASI and TSOIP inputs in the transmitter
• Designing an advanced cooling system based on liquid cooling technology
• Ability to cover the transmitter equipment in the entire UHF band
• Automatic change of the channel of the transmitter according to the command of Exteire
• Ability to automatically control coolant pumps in the transmitter
• Use of accurate temperature sensors to display the liquid temperature in the flow
• Ability to control and evaluate remote transmitter performance
• Ability to evaluate the sender’s performance by sending SMS
• The possibility of recording errors and providing error reports through the touch screen display
• Having a precise control system to control the main sender and reserve
• Designing amplifier classes with the same power and using up-to-date technology modules
• Using separate protection circuits for amplifier classes such as return signal, temperature, current, voltage and overdrive
• Using the automatic gain control (AGC) circuit separately in the amplifier stages
• Ability to adjust the automatic phase in the amplifier floors
• Ability to display all parameters of the transmitter through the touch screen display

High – Power Transmitters (3KW) at one glance:

• Support for DVB-T/T2 standard
• Support MFN and SFN mode
• Transmitter design based on the structure of (1+1), (1+2) and (1+3)
• Existence of linear and non-linear Adaptive Digital Correction (ADC) to optimize transmitter performance
• Ability to use two ASI and TSOIP inputs in the transmitter
• Designing an advanced cooling system based on liquid cooling technology
• Ability to cover the transmitter equipment in the entire UHF band
• Automatic change of the channel of the transmitter according to the command of Exteire
• Ability to automatically control coolant pumps in the transmitter
• Use of accurate temperature sensors to display the liquid temperature in the flow
• Ability to control and evaluate remote transmitter performance
• Ability to evaluate the sender’s performance by sending SMS
• The possibility of recording errors and providing error reports through the touch screen display
• Having a precise control system to control the main sender and reserve
• Designing amplifier classes with the same power and using up-to-date technology modules
• Using separate protection circuits for amplifier classes such as return signal, temperature, current, voltage and overdrive
• Using the automatic gain control (AGC) circuit separately in the amplifier stages
• Ability to adjust the automatic phase in the amplifier floors
• Ability to display all parameters of the transmitter through the touch screen display

FM radio transmitter at one glance:

• FM frequency band coverage (87.5 ~ 108 MHz)
• Ability to display forward power, return power, channel frequency, current consumption, amplifier, supply voltage, Deviation rate, and transmitter temperature display
• Using the most up-to-date module and transistor based on the generation of LD-mos technology
• High efficiency
• Protection system against reverse signal, overdrive, over current, protection against temperature rise
• Air cooling system
• Modulation capability in mono and stereo (for Left and Right signal)
• The ability to change the fan manually
• Output low-pass filter and built-in directional coupler Included
• The ability to set parameters through the keys on the front panel
• Adjustable mpx input included
• The RDS Encoder system included

The new 200W FM transmitter design at a glance:

FM frequency band coverage (87.5 ~ 108 MHz)

Display output and reflect power, channel frequency, electric current, amplifier, supply voltage, Deviation rate, and transmitter temperature

Consist of The most up-to-date module and transistor based on the LD-mos technology generation

High efficiency

Protection system against reversal signal, overdrive, over current and protection against temperature rise

Air cooling system

Modulation capability in mono and stereo (for Left and Right signal)

Capability of changing the fan manually

Having a low-pass filter output and built-in directional coupler

Ability to set parameters through front panel keys

Adjustable mpx input

Include RDS Encoder system

The Old 200W FM transmitter design at a glance:

FM frequency band coverage (87.5 ~ 108 MHz)

Display output and reflect power, channel frequency, electric current, amplifier, supply voltage, and Deviation rate

Consist of The most up-to-date module and transistor based on the LD-mos technology generation

High efficiency

Protection system against reversal signal, overdrive, over current and protection against temperature rise

Air cooling system

Modulation capability in mono and stereo (for Left and Right signal)

Capability of changing the fan manually

Having a low-pass filter output and built-in directional coupler

Ability to set parameters through front panel keys

Adjustable mpx input

Include RDS Encoder system