RE: [EXTERNAL] [casper] Advice for radio astronomy components student project {External} {External}
Hi Glen, The ADRV9009 is an improved version of the AD9361/AD9363 used on the PlutoSDR. It uses JESD204C high-speed transceivers for the interface, and can be used with a number of FPGA development boards. But I do not know if anyone has a CASPER interface to it. This is why the RFSoC 4x2 boards may be the best solution to a lot of problems, as CASPER already has support for them 😊 For those who do not know, commercial entities can buy the boards for about $5k (versus half that for Universities). Regards, Dave -Original Message- From: [email protected] On Behalf Of Glen Langston Sent: Thursday, August 17, 2023 1:16 PM To: [email protected] Subject: Re: [EXTERNAL] [casper] Advice for radio astronomy components student project {External} {External} Hi Matthew, Thanks for your update. I’m still looking for the low cost entry point to CASPER. Any alternatives appreciated. The Pluto does have a number of fantastic features, including two inputs and two outputs, so that returning (TXing) a version of input signals might be a great test. It has 50db of gain. A limited version of Gnuradio is supported in the ARM processor. Often the PlutoSDR devices actually contain dual core processors. My desire is actually event detection, that was implemented (long, long ago), on an iBoB, which detected short term events and flags data capture. I’d like to do this at 60 MHz bandwidth, but only capture a fraction of a second. Which is possible on the PlutoSDR, but not for much data. Best regards Glen https://urldefense.us/v3/__https://ui.adsabs.harvard.edu/abs/2007AAS...211.1109L/abstract__;!!PvBDto6Hs4WbVuu7!N6uHI-iIm-d9M5Ld4KA5p-aexPfELTxCrE8PP6C2qpJHYYGKbC-F-iIZlizyL4CPkuhGqsdZ6p4AxFT7yqShIEE708sJgS3ZOeW2$<https://urldefense.us/v3/__https:/ui.adsabs.harvard.edu/abs/2007AAS...211.1109L/abstract__;!!PvBDto6Hs4WbVuu7!N6uHI-iIm-d9M5Ld4KA5p-aexPfELTxCrE8PP6C2qpJHYYGKbC-F-iIZlizyL4CPkuhGqsdZ6p4AxFT7yqShIEE708sJgS3ZOeW2$> https://urldefense.us/v3/__https://safe.nrao.edu/wiki/pub/CICADA/CicadaNotes/cicadaNote004.pdf__;!!PvBDto6Hs4WbVuu7!N6uHI-iIm-d9M5Ld4KA5p-aexPfELTxCrE8PP6C2qpJHYYGKbC-F-iIZlizyL4CPkuhGqsdZ6p4AxFT7yqShIEE708sJgaJJWK9E$<https://urldefense.us/v3/__https:/safe.nrao.edu/wiki/pub/CICADA/CicadaNotes/cicadaNote004.pdf__;!!PvBDto6Hs4WbVuu7!N6uHI-iIm-d9M5Ld4KA5p-aexPfELTxCrE8PP6C2qpJHYYGKbC-F-iIZlizyL4CPkuhGqsdZ6p4AxFT7yqShIEE708sJgaJJWK9E$> > On Aug 17, 2023, at 3:37 PM, Matthew Schiller > mailto:[email protected]>> wrote: > > While technically perhaps possible The XC7X010 Zynq FPGA used on the > ADALM-PLUTO is going to be limiting for any Casper signal processing work as > it has a total of 80 multipliers and only 28,000 LUTs, that's really tiny for > doing anything more than a simple polyphase decimator and a streaming I/Q > output, which is basically what they give you out of the box from Analog > Devices. > > > > > Matthew Schiller > ngVLA Digital Backend Lead > NRAO > > [email protected]<mailto:[email protected]> > 315-316-2032 > > > > > > -Original Message- > From: [email protected]<mailto:[email protected]> > mailto:[email protected]>> On Behalf > Of Glen I Langston > Sent: Thursday, August 17, 2023 2:59 PM > To: [email protected]<mailto:[email protected]> > Subject: Re: [EXTERNAL] [casper] Advice for radio astronomy components > student project {External} {External} > > Hi Colm, > > If you want about the very cheapest radio telescope hardware, you could > consider the “Pail of Milky Way” radio telescope. > > See > https://urldefense.us/v3/__https://github.com/WVURAIL/lightwork/blob/m<https://urldefense.us/v3/__https:/github.com/WVURAIL/lightwork/blob/m> > aster/memos/LightWorkMemo032-PailOfMilkyWay-r5.pdf__;!!PvBDto6Hs4WbVuu > 7!N6uHI-iIm-d9M5Ld4KA5p-aexPfELTxCrE8PP6C2qpJHYYGKbC-F-iIZlizyL4CPkuhG > qsdZ6p4AxFT7yqShIEE708sJgTbKD91b$ (All parts cost about $500 US, > including the Raspberry Pi 400). > > The associated python code is there as well. > > This is not really a “CASPER” project as this uses Gnuradio code. > > Glen, > > FYI I believe that the CASPER software could be ported to the Analog Devices > Pluto SDR, but this has not yet been accomplished, > I believe. This device is supported by Gnuradio. > https://urldefense.us/v3/__https://www.analog.com/en/design-center/eva<https://urldefense.us/v3/__https:/www.analog.com/en/design-center/eva> > luation-hardware-and-software/evaluation-boards-kits/adalm-pluto.html* > eb-buy__;Iw!!PvBDto6Hs4WbVuu7!N6uHI-iIm-d9M5Ld4KA5p-aexPfELTxCrE8PP6C2 > qpJHYYGKbC-F-iIZlizyL4CPkuhGqsdZ6p4AxFT7yqShIEE708sJgZanLS3i$ > > It would be gre
Re: [EXTERNAL] [casper] Advice for radio astronomy components student project {External} {External}
Hi Matthew, Thanks for your update. I’m still looking for the low cost entry point to CASPER. Any alternatives appreciated. The Pluto does have a number of fantastic features, including two inputs and two outputs, so that returning (TXing) a version of input signals might be a great test. It has 50db of gain. A limited version of Gnuradio is supported in the ARM processor. Often the PlutoSDR devices actually contain dual core processors. My desire is actually event detection, that was implemented (long, long ago), on an iBoB, which detected short term events and flags data capture. I’d like to do this at 60 MHz bandwidth, but only capture a fraction of a second. Which is possible on the PlutoSDR, but not for much data. Best regards Glen https://ui.adsabs.harvard.edu/abs/2007AAS...211.1109L/abstract https://safe.nrao.edu/wiki/pub/CICADA/CicadaNotes/cicadaNote004.pdf > On Aug 17, 2023, at 3:37 PM, Matthew Schiller wrote: > > While technically perhaps possible The XC7X010 Zynq FPGA used on the > ADALM-PLUTO is going to be limiting for any Casper signal processing work as > it has a total of 80 multipliers and only 28,000 LUTs, that's really tiny for > doing anything more than a simple polyphase decimator and a streaming I/Q > output, which is basically what they give you out of the box from Analog > Devices. > > > > > Matthew Schiller > ngVLA Digital Backend Lead > NRAO > > [email protected] > 315-316-2032 > > > > > > -Original Message- > From: [email protected] On Behalf Of Glen > I Langston > Sent: Thursday, August 17, 2023 2:59 PM > To: [email protected] > Subject: Re: [EXTERNAL] [casper] Advice for radio astronomy components > student project {External} {External} > > Hi Colm, > > If you want about the very cheapest radio telescope hardware, you could > consider the “Pail of Milky Way” radio telescope. > > See > https://github.com/WVURAIL/lightwork/blob/master/memos/LightWorkMemo032-PailOfMilkyWay-r5.pdf > (All parts cost about $500 US, including the Raspberry Pi 400). > > The associated python code is there as well. > > This is not really a “CASPER” project as this uses Gnuradio code. > > Glen, > > FYI I believe that the CASPER software could be ported to the Analog Devices > Pluto SDR, but this has not yet been accomplished, > I believe. This device is supported by Gnuradio. > https://www.analog.com/en/design-center/evaluation-hardware-and-software/evaluation-boards-kits/adalm-pluto.html#eb-buy > > It would be great if someone could port the CASPER tools to this device. > > >> On Aug 16, 2023, at 11:20 AM, 'Hawkins, David W (US 334B)' via >> [email protected] wrote: >> >> Hi Colm, >>>> I am looking for components that easy to interface with via python >> In that case, I would recommend investing in: >> https://www.realdigital.org/hardware/rfsoc-4x2 >> Students can still learn about RF mixers, power amplifiers, and LNAs, and >> they would use the RFSoC board as a high-end signal generator and data >> acquisition system. >> The Red Pitaya is another option, but it has lower bandwidth DACs and ADCs. >> Regards, >> Dave >> From: [email protected] On Behalf >> Of Colm Bracken >> Sent: Wednesday, August 16, 2023 3:25 AM >> To: [email protected] >> Subject: [EXTERNAL] [casper] Advice for radio astronomy components >> student project Dear Casper, I hope you are all well today! >> I am hoping some of you might have some advice/ideas for easily-intefaceable >> RF components. >> I want to purchase signal generators (~100 MHz), and a range of local >> oscillators for a student project. >> Ideally I am looking for components that easy to interface with via python >> (or Matlab if necessary). The aim of the project is to develop a new readout >> system employing both homodyne and heterodyne techniques, with RF freq's >> between 4 and 8 GHz (baseband from DC to ~ 100 MHZ). >> Any useful ideas would be very much appreciated. Again, emphasis is on >> ease-of interfacing. >> Kind regards, >> Colm >> >> -- Dr Colm Bracken >> Lecturer >> Maynooth University Experimental Physics >> >> >> Maynooth University, Maynooth, Co. Kildare, Ireland. >> >> T: +353 1 708 3641 >> E: [email protected] W: MailScanner has detected a possible fraud >> attempt from "urldefense.us" claiming to be www.maynoothuniversity.ie >> Follow my work on MailScanner has detected a possible fraud attempt >> from "urldefense.us" claiming to be >> https://nui
RE: [EXTERNAL] [casper] Advice for radio astronomy components student project {External} {External}
While technically perhaps possible The XC7X010 Zynq FPGA used on the ADALM-PLUTO is going to be limiting for any Casper signal processing work as it has a total of 80 multipliers and only 28,000 LUTs, that's really tiny for doing anything more than a simple polyphase decimator and a streaming I/Q output, which is basically what they give you out of the box from Analog Devices. Matthew Schiller ngVLA Digital Backend Lead NRAO [email protected] 315-316-2032 -Original Message- From: [email protected] On Behalf Of Glen I Langston Sent: Thursday, August 17, 2023 2:59 PM To: [email protected] Subject: Re: [EXTERNAL] [casper] Advice for radio astronomy components student project {External} {External} Hi Colm, If you want about the very cheapest radio telescope hardware, you could consider the “Pail of Milky Way” radio telescope. See https://github.com/WVURAIL/lightwork/blob/master/memos/LightWorkMemo032-PailOfMilkyWay-r5.pdf (All parts cost about $500 US, including the Raspberry Pi 400). The associated python code is there as well. This is not really a “CASPER” project as this uses Gnuradio code. Glen, FYI I believe that the CASPER software could be ported to the Analog Devices Pluto SDR, but this has not yet been accomplished, I believe. This device is supported by Gnuradio. https://www.analog.com/en/design-center/evaluation-hardware-and-software/evaluation-boards-kits/adalm-pluto.html#eb-buy It would be great if someone could port the CASPER tools to this device. > On Aug 16, 2023, at 11:20 AM, 'Hawkins, David W (US 334B)' via > [email protected] wrote: > > Hi Colm, >>> I am looking for components that easy to interface with via python > In that case, I would recommend investing in: > https://www.realdigital.org/hardware/rfsoc-4x2 > Students can still learn about RF mixers, power amplifiers, and LNAs, and > they would use the RFSoC board as a high-end signal generator and data > acquisition system. > The Red Pitaya is another option, but it has lower bandwidth DACs and ADCs. > Regards, > Dave > From: [email protected] On Behalf > Of Colm Bracken > Sent: Wednesday, August 16, 2023 3:25 AM > To: [email protected] > Subject: [EXTERNAL] [casper] Advice for radio astronomy components > student project Dear Casper, I hope you are all well today! > I am hoping some of you might have some advice/ideas for easily-intefaceable > RF components. > I want to purchase signal generators (~100 MHz), and a range of local > oscillators for a student project. > Ideally I am looking for components that easy to interface with via python > (or Matlab if necessary). The aim of the project is to develop a new readout > system employing both homodyne and heterodyne techniques, with RF freq's > between 4 and 8 GHz (baseband from DC to ~ 100 MHZ). > Any useful ideas would be very much appreciated. Again, emphasis is on > ease-of interfacing. > Kind regards, > Colm > > -- Dr Colm Bracken > Lecturer > Maynooth University Experimental Physics > > > Maynooth University, Maynooth, Co. Kildare, Ireland. > > T: +353 1 708 3641 > E: [email protected] W: MailScanner has detected a possible fraud > attempt from "urldefense.us" claiming to be www.maynoothuniversity.ie > Follow my work on MailScanner has detected a possible fraud attempt > from "urldefense.us" claiming to be > https://nuim.academia.edu/ColmBracken > And > Research Associate > Astronomy & Astrophysics Section > School of Cosmic Physics > Dublin Institute for Advanced Studies > 31 Fitzwilliam Place > Dublin 2, D02 XF86 > T: +353 1 440 6656 ext 352 > E: [email protected] W: MailScanner has detected a possible fraud > attempt from "urldefense.us" claiming to be > www.dias.ie/2017/06/22/dr-colm-bracken > Follow my work on MailScanner has detected a possible fraud attempt > from "urldefense.us" claiming to be > https://nuim.academia.edu/ColmBracken > -- > You received this message because you are subscribed to the Google Groups > "[email protected]" group. > To unsubscribe from this group and stop receiving emails from it, send an > email to [email protected]. > To view this discussion on the web visit MailScanner has detected a possible > fraud attempt from "urldefense.us" claiming to > behttps://groups.google.com/a/lists.berkeley.edu/d/msgid/casper/CAEx9wh-TeHBWwJmxph7UCOQ6JeL%3DxJ404QdjJit8fakofnKK0Q%40mail.gmail.com. > > -- > You received this message because you are subscribed to the Google Groups > "[email protected]" group. > To unsubscribe from this group and stop receiving emails from it, send an > email
Re: [EXTERNAL] [casper] Advice for radio astronomy components student project {External}
Hi Colm, If you want about the very cheapest radio telescope hardware, you could consider the “Pail of Milky Way” radio telescope. See https://github.com/WVURAIL/lightwork/blob/master/memos/LightWorkMemo032-PailOfMilkyWay-r5.pdf (All parts cost about $500 US, including the Raspberry Pi 400). The associated python code is there as well. This is not really a “CASPER” project as this uses Gnuradio code. Glen, FYI I believe that the CASPER software could be ported to the Analog Devices Pluto SDR, but this has not yet been accomplished, I believe. This device is supported by Gnuradio. https://www.analog.com/en/design-center/evaluation-hardware-and-software/evaluation-boards-kits/adalm-pluto.html#eb-buy It would be great if someone could port the CASPER tools to this device. > On Aug 16, 2023, at 11:20 AM, 'Hawkins, David W (US 334B)' via > [email protected] wrote: > > Hi Colm, >>> I am looking for components that easy to interface with via python > In that case, I would recommend investing in: > https://www.realdigital.org/hardware/rfsoc-4x2 > Students can still learn about RF mixers, power amplifiers, and LNAs, and > they would use the RFSoC board as a high-end signal generator and data > acquisition system. > The Red Pitaya is another option, but it has lower bandwidth DACs and ADCs. > Regards, > Dave > From: [email protected] On Behalf Of Colm > Bracken > Sent: Wednesday, August 16, 2023 3:25 AM > To: [email protected] > Subject: [EXTERNAL] [casper] Advice for radio astronomy components student > project > Dear Casper, > I hope you are all well today! > I am hoping some of you might have some advice/ideas for easily-intefaceable > RF components. > I want to purchase signal generators (~100 MHz), and a range of local > oscillators for a student project. > Ideally I am looking for components that easy to interface with via python > (or Matlab if necessary). The aim of the project is to develop a new readout > system employing both homodyne and heterodyne techniques, with RF freq's > between 4 and 8 GHz (baseband from DC to ~ 100 MHZ). > Any useful ideas would be very much appreciated. Again, emphasis is on > ease-of interfacing. > Kind regards, > Colm > > -- Dr Colm Bracken > Lecturer > Maynooth University Experimental Physics > > > Maynooth University, Maynooth, Co. Kildare, Ireland. > > T: +353 1 708 3641 > E: [email protected] W: MailScanner has detected a possible fraud attempt > from "urldefense.us" claiming to be www.maynoothuniversity.ie > Follow my work on MailScanner has detected a possible fraud attempt from > "urldefense.us" claiming to be https://nuim.academia.edu/ColmBracken > And > Research Associate > Astronomy & Astrophysics Section > School of Cosmic Physics > Dublin Institute for Advanced Studies > 31 Fitzwilliam Place > Dublin 2, D02 XF86 > T: +353 1 440 6656 ext 352 > E: [email protected] W: MailScanner has detected a possible fraud attempt > from "urldefense.us" claiming to be www.dias.ie/2017/06/22/dr-colm-bracken > Follow my work on MailScanner has detected a possible fraud attempt from > "urldefense.us" claiming to be https://nuim.academia.edu/ColmBracken > -- > You received this message because you are subscribed to the Google Groups > "[email protected]" group. > To unsubscribe from this group and stop receiving emails from it, send an > email to [email protected]. > To view this discussion on the web visit MailScanner has detected a possible > fraud attempt from "urldefense.us" claiming to > behttps://groups.google.com/a/lists.berkeley.edu/d/msgid/casper/CAEx9wh-TeHBWwJmxph7UCOQ6JeL%3DxJ404QdjJit8fakofnKK0Q%40mail.gmail.com. > > -- > You received this message because you are subscribed to the Google Groups > "[email protected]" group. > To unsubscribe from this group and stop receiving emails from it, send an > email to [email protected]. > To view this discussion on the web visit > https://groups.google.com/a/lists.berkeley.edu/d/msgid/casper/DM6PR09MB5157F7E53983FACFBC9E547B8715A%40DM6PR09MB5157.namprd09.prod.outlook.com. -- You received this message because you are subscribed to the Google Groups "[email protected]" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To view this discussion on the web visit https://groups.google.com/a/lists.berkeley.edu/d/msgid/casper/64BD72F5-9EC1-4A5F-ACF8-5112041A2189%40nrao.edu.
RE: [casper] Advice for radio astronomy components student project
Dear Colm, Aspen Electronics Ltd in the UK supply many of these components at competitive prices. Cheers, Neil From: [email protected] On Behalf Of Colm Bracken Sent: 16 August 2023 11:25 To: [email protected] Subject: [casper] Advice for radio astronomy components student project Dear Casper, I hope you are all well today! I am hoping some of you might have some advice/ideas for easily-intefaceable RF components. I want to purchase signal generators (~100 MHz), and a range of local oscillators for a student project. Ideally I am looking for components that easy to interface with via python (or Matlab if necessary). The aim of the project is to develop a new readout system employing both homodyne and heterodyne techniques, with RF freq's between 4 and 8 GHz (baseband from DC to ~ 100 MHZ). Any useful ideas would be very much appreciated. Again, emphasis is on ease-of interfacing. Kind regards, Colm -- Dr Colm Bracken Lecturer Maynooth University Experimental Physics Maynooth University, Maynooth, Co. Kildare, Ireland. T: +353 1 708 3641 E: [email protected] <mailto:[email protected]> W: www.maynoothuniversity.ie <http://www.maynoothuniversity.ie> Follow my work on https://nuim.academia.edu/ColmBracken And Research Associate Astronomy & Astrophysics Section School of Cosmic Physics Dublin Institute for Advanced Studies 31 Fitzwilliam Place Dublin 2, D02 XF86 T: +353 1 440 6656 ext 352 E: [email protected] <mailto:[email protected]> W: www.dias.ie/2017/06/22/dr-colm-bracken <https://www.dias.ie/2017/06/22/dr-colm-bracken> Follow my work on https://nuim.academia.edu/ColmBracken -- You received this message because you are subscribed to the Google Groups "[email protected]" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected] <mailto:[email protected]> . To view this discussion on the web visit https://groups.google.com/a/lists.berkeley.edu/d/msgid/casper/CAEx9wh-TeHBWwJmxph7UCOQ6JeL%3DxJ404QdjJit8fakofnKK0Q%40mail.gmail.com <https://groups.google.com/a/lists.berkeley.edu/d/msgid/casper/CAEx9wh-TeHBWwJmxph7UCOQ6JeL%3DxJ404QdjJit8fakofnKK0Q%40mail.gmail.com?utm_medium=email&utm_source=footer> . -- You received this message because you are subscribed to the Google Groups "[email protected]" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To view this discussion on the web visit https://groups.google.com/a/lists.berkeley.edu/d/msgid/casper/000e01d9d072%2453d298a0%24fb77c9e0%24%40tiscali.co.uk.
RE: [EXTERNAL] [casper] Advice for radio astronomy components student project
Hi Colm, >> I am looking for components that easy to interface with via python In that case, I would recommend investing in: https://www.realdigital.org/hardware/rfsoc-4x2 Students can still learn about RF mixers, power amplifiers, and LNAs, and they would use the RFSoC board as a high-end signal generator and data acquisition system. The Red Pitaya is another option, but it has lower bandwidth DACs and ADCs. Regards, Dave From: [email protected] On Behalf Of Colm Bracken Sent: Wednesday, August 16, 2023 3:25 AM To: [email protected] Subject: [EXTERNAL] [casper] Advice for radio astronomy components student project Dear Casper, I hope you are all well today! I am hoping some of you might have some advice/ideas for easily-intefaceable RF components. I want to purchase signal generators (~100 MHz), and a range of local oscillators for a student project. Ideally I am looking for components that easy to interface with via python (or Matlab if necessary). The aim of the project is to develop a new readout system employing both homodyne and heterodyne techniques, with RF freq's between 4 and 8 GHz (baseband from DC to ~ 100 MHZ). Any useful ideas would be very much appreciated. Again, emphasis is on ease-of interfacing. Kind regards, Colm -- Dr Colm Bracken Lecturer Maynooth University Experimental Physics [https://ci3.googleusercontent.com/mail-sig/AIorK4x3TkqhjEdNw_twB-sTHbVB-JbLlF1GF22mHSk2WImnmrukk1HNzXa6KDR9M_S_3-v0OMXx2_8] Maynooth University, Maynooth, Co. Kildare, Ireland. T: +353 1 708 3641 E: [email protected]<mailto:[email protected]> W: www.maynoothuniversity.ie<https://urldefense.us/v3/__http:/www.maynoothuniversity.ie__;!!PvBDto6Hs4WbVuu7!OY850-KfCNVvroHOjvBU-iAW5Y0dxirmB67Mi7CSngt5kKNAw4KBGFPSpvWInjWUKmtVendA1SSyWhJNa8Hf1el19oosX6s$> Follow my work on https://nuim.academia.edu/ColmBracken<https://urldefense.us/v3/__https:/nuim.academia.edu/ColmBracken__;!!PvBDto6Hs4WbVuu7!OY850-KfCNVvroHOjvBU-iAW5Y0dxirmB67Mi7CSngt5kKNAw4KBGFPSpvWInjWUKmtVendA1SSyWhJNa8Hf1el1JKeiIqc$> And Research Associate Astronomy & Astrophysics Section School of Cosmic Physics Dublin Institute for Advanced Studies 31 Fitzwilliam Place Dublin 2, D02 XF86 T: +353 1 440 6656 ext 352 E: [email protected]<mailto:[email protected]> W: www.dias.ie/2017/06/22/dr-colm-bracken<https://urldefense.us/v3/__https:/www.dias.ie/2017/06/22/dr-colm-bracken__;!!PvBDto6Hs4WbVuu7!OY850-KfCNVvroHOjvBU-iAW5Y0dxirmB67Mi7CSngt5kKNAw4KBGFPSpvWInjWUKmtVendA1SSyWhJNa8Hf1el1gRxR3_Y$> Follow my work on https://nuim.academia.edu/ColmBracken<https://urldefense.us/v3/__https:/nuim.academia.edu/ColmBracken__;!!PvBDto6Hs4WbVuu7!OY850-KfCNVvroHOjvBU-iAW5Y0dxirmB67Mi7CSngt5kKNAw4KBGFPSpvWInjWUKmtVendA1SSyWhJNa8Hf1el1JKeiIqc$> -- You received this message because you are subscribed to the Google Groups "[email protected]<mailto:[email protected]>" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]<mailto:[email protected]>. To view this discussion on the web visit https://groups.google.com/a/lists.berkeley.edu/d/msgid/casper/CAEx9wh-TeHBWwJmxph7UCOQ6JeL%3DxJ404QdjJit8fakofnKK0Q%40mail.gmail.com<https://urldefense.us/v3/__https:/groups.google.com/a/lists.berkeley.edu/d/msgid/casper/CAEx9wh-TeHBWwJmxph7UCOQ6JeL*3DxJ404QdjJit8fakofnKK0Q*40mail.gmail.com?utm_medium=email&utm_source=footer__;JSU!!PvBDto6Hs4WbVuu7!OY850-KfCNVvroHOjvBU-iAW5Y0dxirmB67Mi7CSngt5kKNAw4KBGFPSpvWInjWUKmtVendA1SSyWhJNa8Hf1el1POH4Veg$>. -- You received this message because you are subscribed to the Google Groups "[email protected]" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To view this discussion on the web visit https://groups.google.com/a/lists.berkeley.edu/d/msgid/casper/DM6PR09MB5157F7E53983FACFBC9E547B8715A%40DM6PR09MB5157.namprd09.prod.outlook.com.
[casper] Advice for radio astronomy components student project
Dear Casper, I hope you are all well today! I am hoping some of you might have some advice/ideas for easily-intefaceable RF components. I want to purchase signal generators (~100 MHz), and a range of local oscillators for a student project. Ideally I am looking for components that easy to interface with via python (or Matlab if necessary). The aim of the project is to develop a new readout system employing both homodyne and heterodyne techniques, with RF freq's between 4 and 8 GHz (baseband from DC to ~ 100 MHZ). Any useful ideas would be very much appreciated. Again, emphasis is on ease-of interfacing. Kind regards, Colm -- *Dr Colm Bracken* Lecturer Maynooth University Experimental Physics Maynooth University, Maynooth, Co. Kildare, Ireland. T: +353 1 708 3641 E: [email protected] W: www.maynoothuniversity.ie Follow my work on https://nuim.academia.edu/ColmBracken And Research Associate Astronomy & Astrophysics Section School of Cosmic Physics Dublin Institute for Advanced Studies 31 Fitzwilliam Place Dublin 2, D02 XF86 T: +353 1 440 6656 ext 352 E: [email protected] W: www.dias.ie/2017/06/22/dr-colm-bracken Follow my work on https://nuim.academia.edu/ColmBracken -- You received this message because you are subscribed to the Google Groups "[email protected]" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To view this discussion on the web visit https://groups.google.com/a/lists.berkeley.edu/d/msgid/casper/CAEx9wh-TeHBWwJmxph7UCOQ6JeL%3DxJ404QdjJit8fakofnKK0Q%40mail.gmail.com.
