6GHz Dual Frequency Synthesizer module
Valon Model 5009B
5009b Coming Soon! - The 5009b will replace the 5009a. Same form, fit and function with enhanced performance! Updated specifications will be posted.
Contact us for more information, or to request a quote. More Information:
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New - Frequency Range: 20MHz - 6400MHz
● Two independent sources phase-locked to the same internal or external reference. ● USB and TLL Serial Interface. ● Intuitive GUI or simple ASCI command from any terminal program. ● Flash-based, non-volatile memory ● Includes 20” dc power supply cable ● Can economically replace lab instrument signal generators in many common applications. $799 plus shipping Estimated ship date: mid-November 2024 |
The Valon 5009b Dual Frequency Synthesizer module is our latest offering in high frequency synthesizer sources. These frequency synthesizers are perfect in applications that require a spectrally pure and highly stable signal source or timing clock. Our synthesizers have replaced laboratory generators costing many times more in a number of applications. Each module actually contains two independent sources locked to the same internal or external frequency reference or standard. Having two phase coherent sources in the same convenient package opens up a wide variety of test applications and solutions
The Valon 5009b frequency range is 20MHz to 6400MHz. The output power is increased to +16dBm and can be adjusted in 0.5dB steps with 31.5dB step attenuator.
● Extended frequency operation from 20MHz to 6400MHz
● 31.5dB of attenuation control
● Output power up to +13dBm minimum, 15dBm typical
● Simple human readable command based interface with menu. Use any terminal program.
● USB or TTL serial interface. TTL interface allows simple user hardware integration.
● Overvoltage protection as well as under voltage reset
● ±2ppm analog TCXO, external reference input 10 – 200 MHz.
● FLASH based non-volatile memory.
The Valon 5009b frequency range is 20MHz to 6400MHz. The output power is increased to +16dBm and can be adjusted in 0.5dB steps with 31.5dB step attenuator.
● Extended frequency operation from 20MHz to 6400MHz
● 31.5dB of attenuation control
● Output power up to +13dBm minimum, 15dBm typical
● Simple human readable command based interface with menu. Use any terminal program.
● USB or TTL serial interface. TTL interface allows simple user hardware integration.
● Overvoltage protection as well as under voltage reset
● ±2ppm analog TCXO, external reference input 10 – 200 MHz.
● FLASH based non-volatile memory.
The 5009b has an ARM 32-bit Cortextm M3 processor. The synthesizer can be command-line driven and any terminal program can be used to control the synthesizers. Simple human readable text commands can be used to set all the functions. The GUI is still be available as a free download but it is not essential to the operation of the synthesizer. The embedded firmware upgrades and new features will be downloadable from our website as they become available.
There is also an additional TTL serial port that allows for direct machine-to-machine hardware interfacing; bypassing the USB port altogether. You can connect the 5009 using the TTL port directly to your embedded controller without the need for any USB drivers.
Sweep mode - The 5009b is capable of fast sweep modes. The user simply sets the start and stop points, number of steps, and the sweep rate. Sweep can be triggered by a command through either serial port or an external hardware trigger input. Single sweep and continuous sweep modes are selectable. Sweep progress can be monitored by the sweep step pulse and sweep enabled hardware signals.
List mode - A new "List" mode is included. List mode is similar to having radio-button presets. You can save up to 16 synthesizer frequency configurations which can be recalled using logic signals on the convenient user port. After you set and save your frequencies in list mode you no longer need a controller or computer to select any of the presets specified in List mode.
Firmware updates
All new updates can easily be loaded onto the synthesizer through the serial port using our code loader software. You will never need to return the synthesizer for firmware upgrades or changes.
Graphic User Interface (GUI)
Many of our early 5009 adopters have been quite satisfied with our command based programming using the terminal program. But the GUI makes it much easier to navigate through all the 5009b's useful features.
Download the GUI (see below) for free and check it out. You don’t need to have a synthesizer connected to explore all the features.
5009b Maximum Power
An important specification of any RF source is maximum output power. The Valon 5009b provides typically greater than +15dBm (30mW) from 100MHz to 5GHz and greater than 13dBm to 6GHz. This higher power is useful in a number of system applications such as driving mixer LOs and power amplifier without the need for additional driver amplifiers.
The plot shown here is the maximum output power taken from a large sample (>20) of 5009a synthesizers. The data is taken by setting the synthesizer to ATTenuator = 0 which is the maximum power limit. Trace labeled Avg Max is the average value of the ATT=0 power setting for the sample lot. Max Max is the maximum ATT=0 power recorded for the sample lot. Trace Min Max is the minimum ATT=0 power recorded for the sample lot. And also plotted is the current published specification for maximum power.
An important specification of any RF source is maximum output power. The Valon 5009b provides typically greater than +15dBm (30mW) from 100MHz to 5GHz and greater than 13dBm to 6GHz. This higher power is useful in a number of system applications such as driving mixer LOs and power amplifier without the need for additional driver amplifiers.
The plot shown here is the maximum output power taken from a large sample (>20) of 5009a synthesizers. The data is taken by setting the synthesizer to ATTenuator = 0 which is the maximum power limit. Trace labeled Avg Max is the average value of the ATT=0 power setting for the sample lot. Max Max is the maximum ATT=0 power recorded for the sample lot. Trace Min Max is the minimum ATT=0 power recorded for the sample lot. And also plotted is the current published specification for maximum power.
Typical maximum RF output power for ATTenator setting = 0
Typical RF output power for ATTenuator setting = 15