Projeto Radio AM FM CD2003GP E ESQUEMA.
Fonte de pesquisa:

goughlui.com/2016/10/15/project-cd2003gpsc3610d-fm-receiver-wlcd-alarm-clock-74-108mhz/


















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Project: CD2003GP+SC3610D FM Receiver w/LCD Alarm Clock (74-108Mhz)
Posted on October 15, 2016 by lui_gough
My little “mission” to build random Chinese radio-kits from eBay continues with this rather odd and difficult kit. Unlike the other kits, this is the first to come with an LCD display, but is advertised strangely as FM Radio Kit Electronic DIY Hobbies Learning Suite Frequency range:72-108.6Mhz. The kit cost AU$13.59 including postage, so I thought I’d give it a whirl. It’s more challenging, but it’s also potentially more rewarding.

Unboxing
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As far as kits go, this one is just like the rest, starting life off inside a plastic bag of sorts. This one has all of its components encased inside the plastic shell, with the shell taped together. On the shell, T2 is written in pencil on the rear.

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Por dentro, os componentes estavam um pouco soltos e chacoalhando, e eu temia que o LCD pudesse ter quebrado no trânsito. Felizmente, mostrou-se intacto. Existem alguns conectores de fita adesiva carbonizada para uso com a conexão do LCD – parece que cerca de cinco ou seis são fornecidos, o que é bom porque eles podem ser bastante difíceis de conectar. O case é moldado e, embora relativamente simples, ainda é um gabinete atraente para um kit de bricolage. A placa de circuito impresso para o painel frontal e LCD é vista aqui, junto com o alto-falante, bolsa de componentes, antena telescópica, uma haste rosqueada de latão e o botão de afinação.

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A unidade vem com uma única folha A4 de dois lados com detalhes, principalmente em chinês. Uma seção principal de um lado é consumida pelo padrão de rastreamento e guia de componentes de serigrafia, com a outra parte deste lado da página consumida pelo esquema.

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A unidade é baseada no CD2003GP, que é um IC de rádio AM/FM integrado. Todos os seus recursos de AM não são usados ​​neste design, o que é uma pena. Ele também usa um SC3610D como driver de exibição LCD com exibição de frequência AM/FM, funções de relógio e alarme. Um TDA2822 é usado como amplificador de áudio, como é comum em muitos desses designs de kits chineses. Curiosamente , este kit utiliza dois componentes de filtro de cerâmica, o que implica que um IF de 10,7 Mhz está sendo usado. Este pode ser um recurso atraente no caso de você querer usar o IC como um tipo de downconverter, e deve significar melhor seletividade FM do que projetos que dependem de filtros de componentes passivos. A saída do detector está no pino 11 que deve ter a banda base FM completa. Nenhuma decodificação multiplex (estéreo) é oferecida, o que é um pouco decepcionante.

A tela em si é basicamente um contador de frequência que mede a frequência e exibe quando o rádio está funcionando. Se o rádio não estiver funcionando (Vfm baixo), ele exibirá o relógio e permitirá a configuração do alarme. Se o alarme for acionado, o transistor 8550 é ligado para ligar o rádio (ou seja, conecte as baterias ao CD2003). É um design bastante simples, e a tela não é estritamente necessária para a operação do rádio.

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A segunda (principal) PCB é mostrada acima. Tem um substrato estilo fibra de vidro com serigrafia na parte superior. Os valores dos componentes são diretamente serigrafados, facilitando a construção.

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Unlike the other board, however, it is not tinned on the underside and is merely lacquered. It does have a solder mask, although the regularity and sizing of the mask doesn’t always match the intended copper pad shape. It still feels like a good quality board to solder with, even though a few scuffs can be seen near one mounting hole. Interestingly. the antenna connection point seems to show a trace at the top of the board being used as a counterpoise (ground) for the antenna, which should improve reception performance.

Construction Experience
At the time I decided to construct the unit, I was a bit sick from the flu, so I was a little lacking in energy and filled with frustration. As a result, I didn’t end up taking many photos of the construction process, but I will comment on some of the things I discovered along the way.

The first is that the kit absolutely lacks any instruction as to how to put it together. The constructor must work out what to do from the silkscreening. It’s not that hard to do, but it can be more daunting for the absolute beginner.

Because the LCD was a pain-point, I decided to start with assembling the LCD board first. I decided to mount the LCD first, which was a big mistake as it made the chip-on-board module more difficult to solder. As a result, I did make a bit of a mess of the soldering and had to come back and redo it because of a solder bridge or two.

I would recommend starting by soldering the chip-on-board to the PCB. Unfortunately, the board didn’t solder as easily as I would have hoped – a fine iron and fine solder wire is recommended, but even then, the solder often refused to flow freely possibly due to oxidation of the board or bad “vias” on the sides. Regardless, if you can’t get each pin soldered down to the board (starting at the corners first), you won’t have the LCD display and alarm features! This is quite challenging, even for me, so I don’t think it’s a good project for an absolute beginner.

Following that, some ceramic capacitors and a crystal oscillator need to be mounted on the rear of the board. The umbilical cable can also be attached, noting your choice of colours for the different connections.

To assemble the LCD requires some directional light (to see the metallization on the glass), steady hands, some fingernails and the assembly of the “stamping tool”. The tool can be assembled by taking the brass head, putting the silicone insert in, and screwing the rod into the rear. Then, with a careful fingernail, separate one of the carbonized self-adhesive labels from its backing. Take care to align it with the metallization on the glass – you need to get it within about 0.3mm or so. Then press down on the back of the self-adhesive label where it is on the glass with the stamping tool to make sure the label is well-adhered.

Then, remove the backing on the self-adhesive foam labels on the PCB and align the LCD to the PCB. Lower it down onto the self-adhesive then push down on the carbonized tape and get that to adhere to the traces on the PCB, again using the stamping tool to ensure good solid contact. If you didn’t fold the tape, crinkle it or break it, then you’re probably okay as long as the alignment is right. If it’s not, you can peel it off and try with a fresh piece. It’s good that there’s a few pieces, so you can give it a few goes.

The front panel buttons uses “snap” type buttons. The snaps are included, and I tried to solder the edges into place, but they’re of a metal which solder doesn’t take to. Instead, you should probably tape them into place with adhesive tape as other manufacturers often do. The power button is not a soft button, and instead relies on a hardware power switch which threads through the hole in the PCB. As a result, the power button can be “cut” from the front panel button set.

The main PCB is populated as per the silkscreen, with the push button assembled with a cap and the tuning dial assembled with a small non-tapping screw. One thing to watch out for is the variable capacitor, which had very tarnished pins which would not take solder. Having some sandpaper to file off the legs seems to be a good idea. The resistors supplied are high quality five-band resistors, so if you’ve been used to reading the four-band codes, you’ll have a nice time rethinking your multipliers.

Wires to the speakers can be soldered, along with the wires to the board. A wire can be soldered to the tag for attachment to the antenna. I soldered the wires for the battery terminals, but you shouldn’t do this as one of the terminals needs to be soldered after it has been fitted to the casing.

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The assembly looks a little like this – don’t be fooled by the inductor printing on the PCB either – the orientation depends on the winding of the inductor – one of them was not wound in the expected way. Another thing worth noting is that the capacitors in the speaker “circle” need to be bent flat against the board to assemble the kit correctly. Note that there are a few extra holes on the board where no components are fitted and no silkscreen print exists – no components are intended to be fitted into these places.

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At this stage, it’s also good to consider bending the capacitors on the back of PCB2 flat as well, so that it will assemble more nicely.

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To fit it into the case involves sliding the rear antenna in with the tag in-between the case and the antenna and using the larger threaded screw to sandwich it into place. You should have the antenna with the screw pointing outside in case you need to tension it in the future. The tuning knob has to be fitted with the small non-tapping screw. The battery terminals need to have the positive fitted into the bay and then soldered after insertion – note that the terminal order is opposite to what I would expect (namely the negative spring in the door). Don’t lose the door either – it’s not captive.

Hot glue is necessary to secure the speaker into place. Two screws are used with PCB2 (top two), four with PCB1 (corners only). The rear of the case shuts over, with a long tapping screw in the centre, two short tapping screws in the battery bay and two behind the antenna.

Tuning and Troubleshooting
At this stage, I do not advise securing or closing the kit until tuning and troubleshooting has been completed. Partial assembly is necessary to test the unit, however. Have the battery bay assembled so that power can be fed from the AA batteries and then apply power and observe the LCD.

If all is well, the LCD should show the time (if off) or frequency (if on). First turn it on and run the tuning dial through all the frequencies. Then turn it off and run it through all the hours and minutes (AM and PM) then alarm. Check that there are no missing segments or “shorted” segments – if you have a corrupted display, chances are, you have either some solder bridges on the LCD side of the COB or you might have a flaky carbonized tape connection. Check the connection by pressing down with the stamping tool – if the segments flicker, you might have an air bubble under your tape. If nothing changes, then it’s time to grab the desoldering wick. I needed a few attempts to get this right.

Once the LCD is working, tuning is easy as on the two right-most screws need to be adjusted on the rear of the potentiometer. The bottom one affects the tuning range – the LCD will read out the frequency presently tuned to and so tuning is a breeze – you merely need to adjust the screw until you can cover the whole FM band. The other screw controls selectivity, so you will need to find closely spaced stations and adjust for best audio from the tuned station.

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Rather interestingly, the tuning range does exceed the FM band – initially I had it set to cover this range, but later I decided to change it to 70 to 108.5Mhz, which partially covers the OIRT band. It’s relatively flexible although the tuning range does depend on the exact start-and-end frequencies. The indicated frequency is correct to within 0.1Mhz (it seems). Leaving a little slack at each end seems desirable as thermal drift can change the tuning capacitor range slightly.

If all succeeds, then you can continue to close the case entirely and screw it all together.

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Don’t be alarmed if you have quite a few spare parts. It seems that this kit was packed by someone who knows better and provides about one spare component of each value (or more) so that in case you drop one and can’t find it, you’re not out of luck! That’s a nice touch!

In Use
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The plastic casing is a bland white colour with a few scratches due to shipping. However, it is a rather nifty unit. The sound quality from it is passable – not great but not bad either. The mechanical power button is “inverse” – in is powered off, out is powered on. The alarm functions perfectly, and the unit keeps time well, allowing you to set an alarm time and the radio will come on. However, you must ensure the volume is set to an adequate level and the radio is “tuned in”, otherwise you’ll be waking up to static or silence. The choice of 74Mhz as the beginning range is a little odd – I tend to see 76Mhz as a more common value for Japanese and CCIR band radios.

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The alignment of the casing isn’t perfect – it scrubs against the volume dial a bit and the headphone jack seems a little out of place.

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The tuning wheel sits in place well, and with the number of screws involved, the unit feels relatively solid and sturdy. Unfortunately, the design doesn’t have any “feet” or lanyard, so it does feel a little jittery on a table, and could potentially dropped while carried. The case doesn’t resonate as badly as some of the lighter cases.

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A little bit of scrubbing on the rear removes the pencil marks. The non-captive battery cover is less than ideal, but as a DIY kit, it’s not really easy to distinguish this from a commercial product when it’s properly built. I think it’s pretty good looking for a DIY effort.

As this radio is not a real digital tuning radio, it offers a halfway compromise in the form of a frequency counter on the front which shows what frequency you are tuned to. Because of drift in the components due to voltage or temperature, the tuned frequency can shift (e.g. if you’re tuned to 106.5Mhz, it could flicker and display 106.6Mhz from time to time). This doesn’t really affect reception so much as potentially cause annoyance if you insist that the display has to show the “right” number.

The LCD contrast was a little disappointing. It appears this type of LCD is best viewed from below – so if you sit it on a shelf above you, the clock is much more easily read. Unfortunately there doesn’t seem to be a contrast adjustment.

sinal mpxBecause it’s a mono receiver, it doesn’t decode the multiplexed signal and the audio output has the same on the left and right channel. However, in order to provide compatibility for mono and stereo headphones, it is wired using the outer pins only, so stereo headphones will have “phase reversed” audio on the two channels, which makes for an awful listening experience.

The filtering doesn’t seem to be too great on the output, so we can actually see the pilot tone and the stereo multiplex information on the output audio itself.

The audio recording at 96khz is here in case you’d like to examine it.



Conclusion
Even while I’m sick, I managed to conquer yet another cheap Chinese radio kit. This one differs from the other kits by providing a decent enclosure with an LCD screen that provides a frequency counter and an alarm feature. This makes it more functional and practical compared to the other kits. It also adds an additional dimension of difficulty to the kit, which is compounded by the lack of circuit theory and kit construction guidance. As a result, I don’t recommend the kit for absolute beginners, especially due to the tricky SMD COB soldering. Luckily, it seems a few solder bridges on the output drive pins to the LCD has no permanent adverse effects.

Its educational value is limited because of the lack of information, however, it does engage some logic skills in deducing how best to assemble the unit. It does redeem itself as well in providing extra components to compensate for potentially dropped/lost/damaged components during assembly, avoiding any last-minute scrambles to find a particular lost component. It’s also not particularly expensive, although, it doesn’t seem to be a highly popular or available kit. The lack of stereo decoding and AM functionality seemed a little disappointing though. Still, it was good soldering exercise, and kept me entertained for an evening.

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About lui_gough
I'm a bit of a nut for electronics, computing, photography, radio, satellite and other technical hobbies. Click for more about me!
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This entry was posted in Electronics, Radio and tagged ebay, electronics, made-in-china, project, radio, rf, schematic. Bookmark the permalink.
← Power Bank Endurance Test – Hillo Power Jin Gangxia (Part 17)Project: Sainsmart Forty-9er “3W” 7.023Mhz QRP CW Transceiver Kit →
4 Responses to Project: CD2003GP+SC3610D FM Receiver w/LCD Alarm Clock (74-108Mhz)
Mark B. says:
October 16, 2016 at 12:04 am
Sorry if the comment is duplicate, but I guess it didn’t send properly. You are free to to remove this if not needed:

I suggest using RDS Spy to decode the RDS from the leaked signal if your sound card can record at 192kHz. Also, could you please send me a better recording in that case?

Reply
lui_gough says:
October 16, 2016 at 7:35 am
Of course, in theory you can use it with RDS Spy. However, that being said, the output from the chip (Pin 11) goes through a Pi filter, so the 57khz RDS carrier would be even lower in amplitude. To get a good RDS decode will require a “real” 192khz sampling card and a direct connection to Pin 11 rather than using the headphone jack as I’ve done. My audio sample was mainly to let people see what comes out of the headphone jack. That being said, the machine I’m using doesn’t even have a sound card that has real 192khz sampling and doesn’t have any steep anti-aliasing filters in front of them. I used a Zoom H1 Handy Recorder (96khz/24bit) to record the output from the radio – direct connection to a PC sometimes can cause poorer reception due to the wire carrying interference from the PC to the radio.

That being said, I did use RDS Spy to examine all of the Sydney area RDS signals earlier – an RTL-SDR, MPX output plugin, and 192khz VAC is still an easier and cheaper way to do it.

– Gough

Reply
Mark B. says:
October 16, 2016 at 5:53 pm
I used the integrated sound card on my machine with a very old AIWA stereo cassette recorder, and even in this configuration, RDS Spy was able to decode some of the RDS data for me, albeit very poorly. IMO, this would be a nice experiment to try conducting.

If you have time, I’d also suggest building an RDS decoder and attaching it to the radio. One nice project is: www.mictronics.de/projects/rds-decoder/ (it uses an ATTiny2313, a decoder chip and a 16×8 LCD). It would be really exciting if you tried building it and posting the results.

Reply
bob_w says:
April 3, 2017 at 11:56 am
Hello,
Recently I bought a CD2003GP-based radio from www.carolwrightgifts.com/9-band-radio/17483.cfm?clicksource=search&criteria=radio. In spite that it is advertised AM/FM/SW, and because it is deaf as a brick on all short wave bands, I figured, hey, this radio has Potential! What I learned about CD2003-based radios: the ICs are designed to be used in superheterodyne receivers but when used real world, in a budget rig, where parts count matters, the lack of frequency-determining elements, and disabled automatic gain control, essentially relegates the radio to tuned-radio-frequency (TRF). As I ran across your description of your encounter with the Chinese DIY radio, which gave a good explanation of a CD2003-based radio with useful clock/freq. counter, I thought it may have application (e.g., amateur radio), including near-field fox hunting and VHF antenna aiming and antenna design. I found the Chinese DIY kit here: www.ebay.com/itm/Hobbies-DIY-FM-Radio-Kit-Electronic-Learning-Suite-Frequency-range-72-108-6MHz-/222439610332?hash=item33ca6f17dc:g:FJ0AAOSw3mpXEHMs , and downloaded info re the CD2003 IC from here: www.ak-modul-bus.de/cat/documentation/CD2003.pdf
Back to the Chinese DIY radio kit; as the clock/freq. counter is already capable of counting lower frequencies and VHF, I have two questions: (1) Is there sufficient room to locate a BCB ferrite antenna?, and (2) does enough space exist to locate a larger, AM/FM capacitor?
Of course the Chinese DIY radio lacks the means of switching from AM to FM. No problem! The Carol Wright radio includes an AM/FM switching matrix which can be adapted to the Chinese example. (I might wind up using a larger box to hold everything.) Would you please share your thoughts on squeezing in a BCB antenna and a larger AM/FM tuning capacitor, sir. Thank you …

Reply
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