Difference between revisions of "HERMES"

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[[Image:Hardware_Block_Diagram_1_8.JPG|thumb|500px|Hardware block diagram. Click to enlarge.]]
 
[[Image:Hardware_Block_Diagram_1_8.JPG|thumb|500px|Hardware block diagram. Click to enlarge.]]
 
Project Leader: Kevin M0KHZ
 
Project Leader: Kevin M0KHZ
 +
 +
====Update 11 July 2012====
  
 
Hermes is a single board Digital Up and Down Conversion (DUC/DDC) full duplex HF + 6m multi-mode transceiver.
 
Hermes is a single board Digital Up and Down Conversion (DUC/DDC) full duplex HF + 6m multi-mode transceiver.
  
It is basically the [[MERCURY|Mercury]], [[PENELOPE|Penelope]], [[METIS|Metis]] and [[EXCALIBUR|Excalibur]] boards rolled into one PCB. The board communicates to an associated PC via 100T/1000T Ethernet.
+
It is basically the [[MERCURY|Mercury]], [[PENNYLANE|Pennylane]], [[METIS|Metis]] and [[EXCALIBUR|Excalibur]] (less TCXO) boards rolled into one PCB. The board communicates to an associated PC via 100T/1000T Ethernet.
  
 
Hermes has the following features and facilities:
 
Hermes has the following features and facilities:
  
* Uninterrupted coverage from 50kHz to 54MHz
+
* Continuous, uninterrupted, receive coverage from 10kHz to 55MHz.
 +
* Supports Real-Time display of entire spectrum from 0-55MHz (with suitable PC software)
 +
* Supports 7 fully independent receivers (sharing the same antenna - and with suitable PC software)
 +
* Each receiver can display 48/96/192kHz of spectrum
 +
* Blocking Dynamic Range (ARRL Method) - no detectable gain compression below ADC overload
 +
* High performance receiver – same specifications as the HPSDR Mercury receiver (ie Dynamic Range typically 125dB)
 
* Transmit and receiver image rejection > 110dB
 
* Transmit and receiver image rejection > 110dB
* Full duplex operation, any split over entire 160m to 6m range
+
* Full duplex operation, any split over entire 160m to 6m range.
* Future expansion possible to eight independent receivers using the same antenna
+
* Transmitter two-tone 3rd order IMD of -50dBc on 20m @ 400mW output
* 500mW RF output on 160 – 6m amateur bands
+
* 500mW RF output on 160 – 10m amateur bands, 350mW on 6m
 
* Built-in high performance preamp, with a noise floor typically -135dBm in 500Hz
 
* Built-in high performance preamp, with a noise floor typically -135dBm in 500Hz
 
* Software-selectable 31dB input attenuator in 1dB steps
 
* Software-selectable 31dB input attenuator in 1dB steps
* High performance receiver – same specifications as the HPSDR Mercury receiver (ie Blocking Dynamic Range typically about 125dB)
+
* FPGA code can be updated via the Industry Standard TCP/IP network Ethernet connection
* FPGA code can be updated via the Ethernet connection
+
 
* Seven user-configurable open-collector outputs, independently selectable per band and Tx/Rx (for relay control, etc - with sequencing via PC code)
 
* Seven user-configurable open-collector outputs, independently selectable per band and Tx/Rx (for relay control, etc - with sequencing via PC code)
 
* Separate open-collector PTT connection for amplifier control, etc, with sequencer
 
* Separate open-collector PTT connection for amplifier control, etc, with sequencer
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* Four user-configurable 12 bit analogue inputs (for ALC, SWR etc)
 
* Four user-configurable 12 bit analogue inputs (for ALC, SWR etc)
 
* Three user-configurable digital inputs (for linear amplifier over temperature, etc)
 
* Three user-configurable digital inputs (for linear amplifier over temperature, etc)
* Optional in-built switch mode power supply – less than xxxmA (receive) from a 13.8V supply
+
* Can operate from a 13.8v DC supply or +12v and +5v supplies
 +
* Jumper selected in-built low noise and high efficiency switch mode power supply designed by Kjell Karson,LA2NI – less than 600mA (receive - one receiver) from a 13.8V supply
 
* I2C bus connector for control of external equipment
 
* I2C bus connector for control of external equipment
* Full QSK using the Kiss Konsole software, since digital signal processing is not used in the controlling PC for CW carrier generation
+
* Full QSK operation (performance dependant on associated PC and control software)
* Low-level transmitter output for transverter use (0dBm) as well as user-selectable output attenuator
+
* Low-level transmitter output for transverter use via user-selectable output attenuator
 
* Stereo audio outputs at line and headphone levels
 
* Stereo audio outputs at line and headphone levels
 
* In-built 1W stereo audio amplifier for directly driving speakers
 
* In-built 1W stereo audio amplifier for directly driving speakers
 
* Direct, de-bounced connections for a Morse key (straight or iambic) and PTT
 
* Direct, de-bounced connections for a Morse key (straight or iambic) and PTT
* 122.88MHz master clock, which can be phase-locked to an internal 10MHz TCXO or external frequency reference
+
* Low phase noise (-140dBc/Hz @ 1kHz at 14MHz) 122.88MHz master clock,which can be phase-locked to an internal 10MHz TCXO or external frequency reference
* Jumper-selectable external frequency reference, with signal processing, to suit numerous GPS-locked 10MHz reference sources
+
* Direct ribbon cable interface to [[Apollo]] 15W power amplifier, low pass filters and automatic ATU or ANAN-10 10W power amplifier and low power filters [http://www.apache-labs.com http://www.apache-labs.com]
* Direct ribbon cable interface to [[Apollo]] 15W power amplifier, low pass filters and automatic ATU or [[Alex]] Antenna switch, HPF and Tx LPFs
+
* Industry Standard TCP/IP network Ethernet interface supports static, APIPA or DHCP IP address
* Low noise, high efficiency, Switching Power Supply designed by Kjell Karson,LA2NI
+
* Hermes responds to ping and ARP requests and auto senses network connection speed
* Ethernet interface supports fixed, APIP or DHCP IP address
+
* PCB is 160mm x 120mm, 8 layers
* Hermes responds to ping and ARP requests, auto senses Ethernet cable connection and connection speed
+
 
  
 
[[Apollo]] is a combined 15w PA, Low Pass Filter bank and Automatic ATU. The Apollo project is led by Kjell Karlsen LA2NI.
 
[[Apollo]] is a combined 15w PA, Low Pass Filter bank and Automatic ATU. The Apollo project is led by Kjell Karlsen LA2NI.
 
   
 
   
 +
 +
Hermes can be used as a Vector Network Analyzer: [[VNA]]
  
 
[[Image:hermesapolloincase.jpg|thumb|500px|Hermes and Apollo in enclosure - photo copyright Kjell Karlsen 2010.]]
 
[[Image:hermesapolloincase.jpg|thumb|500px|Hermes and Apollo in enclosure - photo copyright Kjell Karlsen 2010.]]
  
 +
 +
 +
====Update 7 August 2011====
 +
 +
The primary PCB layout team member of Hermes, Abhi has a blog on Hermes at [http://hpsdrhermes.blogspot.com/ http://hpsdrhermes.blogspot.com/ ]. --[[User:KV0S|KV0S, Dave]]
  
 
====Update 7 July 2011====
 
====Update 7 July 2011====
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The KD5TFD and W5WC versions of PowerSDR(TM) as well as KISS Konsole have been modified to provide native Hermes support.
 
The KD5TFD and W5WC versions of PowerSDR(TM) as well as KISS Konsole have been modified to provide native Hermes support.
  
Ken, N9VV, has a lot on information regarding Hermes on his web site here  http://www.n9vv.com/hamradio.html
+
Ken, N9VV, has a lot of information regarding Hermes on his web site here  http://www.n9vv.com/hamradio.html
  
 
[[Image:Hermes.jpg|thumb|500px|center| (click for larger image) photo courtesy Abhi Arunoday ]]
 
[[Image:Hermes.jpg|thumb|500px|center| (click for larger image) photo courtesy Abhi Arunoday ]]
 +
There are also the [[Hermes Board Build Notes]]
 +
 +
====Update 2 December 2012====
  
 +
A useful website for Hermes users can be found at [http://www.k9ivb.net/hermes/ www.k9ivb.net/hermes/] by Dick K9IVB.  --[[User:KV0S|KV0S, Dave]]
  
 +
There are the [[Hermes Board Build Notes]] as well.
  
 
[[Category:Hermes| ]]
 
[[Category:Hermes| ]]

Latest revision as of 04:50, 28 December 2012

Hermes - A DUC/DDC Transceiver

Hardware block diagram. Click to enlarge.

Project Leader: Kevin M0KHZ

Update 11 July 2012

Hermes is a single board Digital Up and Down Conversion (DUC/DDC) full duplex HF + 6m multi-mode transceiver.

It is basically the Mercury, Pennylane, Metis and Excalibur (less TCXO) boards rolled into one PCB. The board communicates to an associated PC via 100T/1000T Ethernet.

Hermes has the following features and facilities:

  • Continuous, uninterrupted, receive coverage from 10kHz to 55MHz.
  • Supports Real-Time display of entire spectrum from 0-55MHz (with suitable PC software)
  • Supports 7 fully independent receivers (sharing the same antenna - and with suitable PC software)
  • Each receiver can display 48/96/192kHz of spectrum
  • Blocking Dynamic Range (ARRL Method) - no detectable gain compression below ADC overload
  • High performance receiver – same specifications as the HPSDR Mercury receiver (ie Dynamic Range typically 125dB)
  • Transmit and receiver image rejection > 110dB
  • Full duplex operation, any split over entire 160m to 6m range.
  • Transmitter two-tone 3rd order IMD of -50dBc on 20m @ 400mW output
  • 500mW RF output on 160 – 10m amateur bands, 350mW on 6m
  • Built-in high performance preamp, with a noise floor typically -135dBm in 500Hz
  • Software-selectable 31dB input attenuator in 1dB steps
  • FPGA code can be updated via the Industry Standard TCP/IP network Ethernet connection
  • Seven user-configurable open-collector outputs, independently selectable per band and Tx/Rx (for relay control, etc - with sequencing via PC code)
  • Separate open-collector PTT connection for amplifier control, etc, with sequencer
  • Microphone PTT jumper-selectable from tip or ring connection
  • Bias for electret microphones via jumper
  • Four user-configurable 12 bit analogue inputs (for ALC, SWR etc)
  • Three user-configurable digital inputs (for linear amplifier over temperature, etc)
  • Can operate from a 13.8v DC supply or +12v and +5v supplies
  • Jumper selected in-built low noise and high efficiency switch mode power supply designed by Kjell Karson,LA2NI – less than 600mA (receive - one receiver) from a 13.8V supply
  • I2C bus connector for control of external equipment
  • Full QSK operation (performance dependant on associated PC and control software)
  • Low-level transmitter output for transverter use via user-selectable output attenuator
  • Stereo audio outputs at line and headphone levels
  • In-built 1W stereo audio amplifier for directly driving speakers
  • Direct, de-bounced connections for a Morse key (straight or iambic) and PTT
  • Low phase noise (-140dBc/Hz @ 1kHz at 14MHz) 122.88MHz master clock,which can be phase-locked to an internal 10MHz TCXO or external frequency reference
  • Direct ribbon cable interface to Apollo 15W power amplifier, low pass filters and automatic ATU or ANAN-10 10W power amplifier and low power filters http://www.apache-labs.com
  • Industry Standard TCP/IP network Ethernet interface supports static, APIPA or DHCP IP address
  • Hermes responds to ping and ARP requests and auto senses network connection speed
  • PCB is 160mm x 120mm, 8 layers


Apollo is a combined 15w PA, Low Pass Filter bank and Automatic ATU. The Apollo project is led by Kjell Karlsen LA2NI.


Hermes can be used as a Vector Network Analyzer: VNA

Hermes and Apollo in enclosure - photo copyright Kjell Karlsen 2010.


Update 7 August 2011

The primary PCB layout team member of Hermes, Abhi has a blog on Hermes at http://hpsdrhermes.blogspot.com/ . --KV0S, Dave

Update 7 July 2011

A prototype board has been built and tested. The board is fully functional and meets or exceeds the performance of the Mercury/Penelope/Metis/Excalibur boards the design is based on.

Some minor board layout issues are currently being addressed and a pre-production layout is presently being prepared. The KD5TFD and W5WC versions of PowerSDR(TM) as well as KISS Konsole have been modified to provide native Hermes support.

Ken, N9VV, has a lot of information regarding Hermes on his web site here http://www.n9vv.com/hamradio.html

(click for larger image) photo courtesy Abhi Arunoday

There are also the Hermes Board Build Notes

Update 2 December 2012

A useful website for Hermes users can be found at www.k9ivb.net/hermes/ by Dick K9IVB. --KV0S, Dave

There are the Hermes Board Build Notes as well.