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The title says it all. And no, I'm not talking about the cheat itself; I mean a gameplay explanation. While the original Battlezone is simple, the new version is quite complex, and the lack of documentation is a problem. I managed to pick up some items, others not... never could I complete a mission. Is there any kind of manual out there? Or can someone here give a good explanation?
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I believe the most common way that most techs will install UAVs into the 6 switch consoles, is using the 4050 piggy back method that is similar to that of the 5200. This method does work of course for most, but there are a few reason why you might not want to go with this installation method. - The 4050 is critical in the operations of the 6 switch console as it not only has buffering for the video signals, but also is part of the main logic behind the fire button / trigger controls on these older models. - There are instances of the 4050 +5 voltages to the chip not being consistent and even being too low to power the UAV properly while working fine in the console otherwise. - Requires some tight solder work to attach the socket on top of the 4050 which again, is a critical IC in the system and 40+ years old in most of these consoles. - The 4050 is quite susceptible to ESD (Electrostatic Discharge) damage. So not using proper equipment rated to be ESD safe and setup properly can damage the 4050 when touching and soldering to it directly. Although the 4050 is a cheap IC part and still made new today in this form factor, I find it best to stay clear of the IC and I get much better and more consistent results when I point to point solder wire from other locations back to the UAV. As such, this guide can be looked at as an alternate installation method and not the only way to do it. But this is the method I've been using for several years now to install UAVs into 6 switch Atari consoles. UAV (Ultimate Atari Video) Layout:- The UAV has basically remained the same on its design and layout since around 2017 when the current revision D was released. I only use the basic UAV board in all of my installs as I find that easier to wire to and provides me more flexibility overall. Below is a diagram showing you the spots on the UAV you need to be concerned with on NTSC 2600 Installations. In all installs, the UAV will need to have power, ground, color signal, and a few other video signals provided to it for it to function properly. These signals come from the TIA chip. Take NOTE that you attach the signal wires for S, 1, 2, & 3 along the center and smaller vias on the UAV. If you have a pre-built UAV with a header block soldered here, just solder wiring to the tops of the header pins to make it easier. Different revisions:- The 6-switch NTSC consoles come in only two main versions. What we call the Heavy sixer and the light sixer variant. Most of the differences between the two models are on the separate attached switch boards and not on the main board containing the core logic of the game system. As a result, the method shown for UAV wiring is the same between both models of the 6-switch NTSC consoles. Power, Ground and Color resistor:- The UAV requires power and ground to operate . The 6-switch models also have an 800Ωish resistor located at R213 just about below center of the TIA chip. The picture below shows good points to get +5v (R207)and ground (C204 or C203) connections from. Additionally, the color resistor that is in place, must be disabled from circuit as it will cause hue/tint issues on the UAV that cannot be adjusted out using the color trimmer wheel. I usually de-solder the leg and use shrink tubing around it to isolate it, while keeping in place in case the resistor should ever be put back into service for some reason. You can also just clip the leg with side flush cutters as well. NTSC TIA signal component locations for UAV:- The signals needed from the TIA can be gotten from points directly off empty vias on the main board or from a nearby component leg. Again, these are alternate locations that I use for UAV installs as there is plenty of room to solder everything to and it keeps the wiring from the UAV to the main board pretty short. The signal points on the UAV for S, 1, 2, 3, Co In, & Audio are shown below. You might have to carefully bend the resistors to the side a little bit to allow for more room to access these spare vias. Audio Connection:- As shown in the previous picture, there is an unused via next to capacitor C210. This via is connected directly to pins 12 and 13 off the TIA and is where I tap the signal needed for the audio output. However, as this is the raw signal from the TIA it is a bit too strong and I advise adding in an additional 10µf capacitor and resistor inline to help bring the level down a bit. The level of resistance it up to you and isn't required but I wouldn't go above 10k as that is likely to be too low for use and again you might be fine with how it sounds without one at all. Also be advised that this point has both pins 12 and 13 already combined so it will only provide a mono output from both channels of the TIA audio. UAV output wiring:- The output side of the UAV is along the same point that you attached the TIA color signal wire to. All of your output signal jacks will require a connection for the signal output and also ground. What I usually do in my installs is to run a shared ground wire for both audio and composite video from the ground pin near the composite output on the UAV. I then run another second shared ground for the chroma and luma outputs for s-video using the ground pin between Co In and chroma out on the UAV outputs. The diagram below shows the S-video connections on the female s-video as viewed from the front of the s-video jack. What about that blue box thing on the UAV, what is that for? :- The blue box near the output side on the UAV is a trimmer adjustment for changing the way color artifacting looks through composite output. However, this trimmer has no impact when used on the 2600 console as it was mainly put into place for using the UAV on the Atari 8-bit computers where more games used NTSC artifacting. And that pretty much sums it up. The work required to install the UAV into a 6-switch 2600 in this manner might seem like more work, but I think the consistent results and less risk to the TIA and 4050 IC are worth it in these particular installs. And in the case of the NTSC 6-switch consoles, the empty spot on the main board above the TIA is a great place to attach the UAV and have everything needed right there close by. Here is an example of one I've done using the information I've posted above to give you an idea.
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As there can be some confusion on how to install the UAV into a 4-switch NTSC 2600 console due to the variants that exist, I thought I would try and collate all of the basic information needed for installing the UAV into these model 2600s. While the different revisions do have some slight changes between them, in all cases the area where to get the signals needed for the UAV to work are located in the same basic locations. This is is not a comprehensive guide but more of a quick reference for those that already know how to open up the 2600 and are semi familiar with the layout inside of the 4-switch NTSC consoles. UAV (Ultimate Atari Video) Layout:- The UAV has basically remained the same on its design and layout since around 2017 when the current revision D was released. I only use the basic UAV board in all of my installs as I find that easier to wire to and provides me in more flexibility overall. Below is a diagram showing you the spots on the UAV you need to be concerned with on NTSC 2600 Installations. In all installs, the UAV will need to have power, ground, color signal, and a few other video signals provided to it for it to function properly. Take NOTE that you attach the signal wires for S, 1, 2, & 3 along the center and smaller vias on the UAV. If you have a pre-built UAV with a header block soldered here, just solder wiring to the tops of the header pins to make it easier. Different revisions:- The 4-switch NTSC consoles come in revisions starting with rev12 and ending up with rev17 that I've seen personally. Meaning there are variants in between but the good news is that there are really only about 3 different layouts for the components between all of these revisions in the area that we are concerned with for the UAV. Look around the top of the main board to see which Revision of the board you have so that you know which of the sections below to refer to for your UAV install. Power, Ground and Audio:- All revisions of the 4-switch NTSC consoles share the same points for power, ground, and audio that can be used for UAV installations. While the top board trace layouts look different in the areas below and the location of the RF output RCA jack is in different spots, the actual points are the same and in the same locations. I've provided pictures that show how this area is on the Rev 12 - 14 and Rev 16 & 17 models below. Revision 12 & 13 NTSC TIA signal locations for UAV:- The revision 12 and 13 NTSC consoles is pretty straightforward as the signals are all in a line from the main resistor section just to the right of the TIA chip. The signal points on the UAV for S, 1, 2, 3, & Co In are shown below. Revision 14 NTSC TIA signal locations for UAV:- The revision 14 NTSC console layout is similar to the earlier revisions with the only change being where you grab the signal for connection 2 to the UAV. The signal points on the UAV for S, 1, 2, 3, and Co In are shown below. Revision 16 - 17 NTSC TIA signal locations for UAV:- The revision 16 & 17 NTSC consoles have their signals in the same location as the Rev14 show above, with the one change being an extra 820Ω resistor that was added to the board layout that has to be disconnected from the circuit. This resistor is located directly right of the TIA and is marked as R234, although you cannot see the silkscreen indicating this until you lift the resistor out of place. If you do not disable this resistor, you will end up with incorrect color hues on all colors from the UAV that cannot be adjusted out with the color trimmer. You can either clip the leg of the resistor, de-solder it, or remove the resistor completely. The signal points on the UAV for S, 1, 2, 3, and Co In are shown in the picture below. The picture shows an alternate location for the S signal, but you can also get it from the same location as the Rev 14 in most cases. UAV output colors appear horribly off kilter? As mentioned in the Rev 16 & 17 section, there is an extra resistor on the main board that has to be disabled. While this resistor doesn't have a dedicated location on the earlier revision 4-switch NTSC consoles, it was sometimes added from the factory and therefore bodged into place. Look the presence of this resistor either on the bottom of the main board attached to pins 6 and 9 of the TIA chip, or possibly soldered on the top component side next to the TIA socket. In these cases, it is easiest to just clip the resistor on one leg to disable it without fully removing it. You might want to add shrink tubing or some other way to insulate the lifted/cut leg of the resistor so it can't short against anything. UAV output wiring:- The output side of the UAV is along the same point that you attached the TIA color signal wire to. All of your output signal jacks will require a connection for the signal output and also ground. What I usually do in my installs is to run a shared ground wire for both audio and composite video from the ground pin near the composite output on the UAV. I then run another second shared ground for the chroma and luma outputs for s-video using the ground pin between Co In and chroma out on the UAV outputs. The diagram below shows the S-video connections on the female s-video as viewed from the front of the s-video jack. What about that blue box thing on the UAV, what is that for? :- The blue box near the output side on the UAV is a trimmer adjustment for changing the way color artifacting looks through composite output. However, this trimmer has no impact when used on the 2600 console as it was mainly put into place for using the UAV on the Atari 8-bit computers where more games used NTSC artifacting.
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Does anyone have the hint guide for The Hobbit that they could scan in? If I recall correctly, it was a small guide consisting of a few copied pages that you could send off for. All of the hints were encoded so you had to do an alphabet substitution to read the hint. I ran across an old program that I wrote that decoded the hints as you typed so I wanted to play around with it. My interest has nothing to do with the actual hints, but rather the fun of decoding them. The Crimson Crown had a very similar hint guide that I did locate online, but I haven't been able to find the one for The Hobbit. Below are the 1st 2 pages of The Crimson Crown hint guide as an example:
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Hey folks, I just installed a LED backlight! It worked great but... I wanted to remove the coil (transformer) for more battery saving and now the contrast wheel doesn't change the brightness and I believe the screen has no image. Is there a certain way to remove these or other components to remove or any bridging that needs to be done?
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Has a manual for the 800XE ever been scanned and made public?
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Hey there guys and gals. When I took an interest in getting a Retro-Bit Power Stick for my NES last month I did some searching around for reviews of it online, but all I could find were YouTube video reviews done by popular YouTubers who were sent the controller by Retro-Bit for review. Unfortunately none of the people doing the reviews were very knowledgable about what makes a good arcade stick and I got the distinct impression that they didn't spend more than 10 minutes or so using the controller before doing their review. With that in mind, I'd like to provide an honest and unpaid review of this controller so that others who might be interested in purchasing one will have a good idea of what to expect from it. After the review there will be a detailed upgrade guide for installing real arcade parts in the controller and some final thoughts on the upgraded controller as well. Let's get started! The Review Aesthetically speaking Retro-Bit did an outstanding job on their Power Stick. The casing looks just like the original NES Advantage arcade stick that it's design was based off of, minus the turbo fire and slow motion buttons that is. The gray color of the housing matches the gray of official NES controllers flawlessly, as does the red color of the buttons and text and the black color of the joystick and borders around the buttons. The whole thing just looks great, and the housing feels very solid as well. At 6 feet in length the controller's cord is a little shorter than the original NES controller cord, which was around 8 feet, but it gets the job done and the plug on the end of the cord fits quite securely in the NES's controller port. When you pick it up though is when this controller starts to leave a bit to be desired. The first thing that those familiar with the original NES Advantage will notice is that the Retro-Bit Power Stick is very light weight, and it doesn't take long to figure out why. The original NES Advantage had a solid steel plate for the bottom panel, whereas the plate on the bottom of the Retro-Bit Power Stick is just a sheet of plastic. Fortunately the rubber feet on the bottom of the controller work extremely well, much better than the rubber feet on the original NES Advantage actually, so the controller will not slide around on a table during use. When sitting in your lap it does feel rather light, but on any flat surface it's rock solid. Moving on to the joystick and buttons, that's where the main issues with this controller reside. The joystick is a clone of the highly regarded Sanwa JLF microswitched arcade joystick, but unfortunately it's not one of the better clones. The joystick that comes installed in the Retro-Bit Power Stick feels quite stiff and will likely give the user some wrist cramps after 10 or 15 minutes of pushing it around. It comes with a square gate installed in the restrictor plate, which isn't very ideal for playing Pac-Man and similar games that rely primarily on the cardinal directions (up, down, left, & right) but it gets the job done for most games. The buttons, which are generic 30mm microswitched buttons, fare a bit better. They do require quite a bit more force to press down and activate than premium arcade buttons like Sanwa and Seimitsu but they're not bad either, at least for the first few days. After a week or so of use the buttons began to get stuck down from time to time and the joystick wasn't always responding to inputs, but I can't say I'm terribly surprised. Those familiar with real arcade components will be able to tell after just a few seconds of use that they joystick and buttons are just cheap imitations of real Sanwa and Seimitsu arcade parts, but that's actually not problem for me since this joystick was designed to be upgradable with real arcade parts and I purchased it with the intent to do just that. So, let's get to the upgrading! Upgrade Process For this upgrade I'll be going through the installation of a Sanwa JLF-TP-8Y-SK arcade joystick with an octagon gate and two Seimitsu PS-14-G arcade pushbuttons, though any 30mm size snap-in arcade button should work just as well. I'll also be swapping out the original joystick balltop for a slightly more nicely cast Sanwa brand balltop, though that step is completely optional and the original balltop is just fine if you don't mind the casting lines on it. To get this upgrade started the first thing we need to do is remove the 6 screws from the plastic plate on the underside of the joystick, so get a small phillips head screwdriver ready. Unfortunately only 1 screw is visible when you flip the controller over. To find the others you'll have to poke through the white quality control sticker and peel off the 4 rubber feet. Don't worry though, those feet have some seriously sticky glue on them and will stick back on very securely once we're done. With the rubber feet and screws removed, we can set them aside and take a peek inside the little beast. Now that we have the controller opened up you'll find it's a lot simpler inside than you may have imagined. Just one PCB, a couple snap-in style buttons with quick-disconnect leads running to them, and a Sanwa JLF clone joystick with one simple connector attaching it to the PCB. You can also see what I meant when I said that the joystick had a square gate in the restrictor plate by taking a look at the square cutout in the plate around the base of the joystick shaft. This square shaped gate makes it easy to reliably move the joystick in the diagonal directions, but not so easy to move the joystick up, down, left, or right precisely. That said, let's start by replacing the joystick. First, insert a flathead screwdriver into the screw on the bottom of the joystick shaft to keep it in place while unscrewing the ball from the top of the joystick. With the balltop now removed, to take the joystick itself out simply pull the connector off the left side and unscrew the two screws securing the joystick to the housing. Now we can take a look at stock joystick compared to a real Sanwa JLF joystick. You'll notice that they're very similar in design, however the stock joystick has a different plastic shaft cover with no dustwasher, and the stock joystick has a slightly taller shaft as well. If you're fond of the taller joystick shaft and it's proprietary shaft cover it's easy enough to remove the joystick shaft from the stock stick and install it in the Sanwa JLF stick, but I prefer the lower profile of the Sanwa joystick (which is much closer in size to the original NES Advantage joystick) so we'll be sticking with the regular Sanwa JLF parts for this upgrade. Before we install the Sanwa JLF joystick though we should take a minute to swap out the JLF's default square gate for an octagon shaped gate that will be much better suited to playing classic NES games with. To do this just flip over the JLF joystick and press the 4 circled tabs inward to pop the restrictor plate off. With the restrictor plate removed now it's time to take the square gate insert out of the middle of the plate, which can be done by gently pressing upward on the insert from the underside of the plate while turing the two tabs on top counterclockwise. To install the octagon gate insert in the restrictor plate just reverse the process, sliding the octagon gate insert into the top of the restrictor plate and pushing down gently while turing the gate clockwise until it clicks in place. With the gate insert swap completed, snap the restrictor plate back on the bottom of the JLF joystick and we can move on to installing the completed joystick in the controller. Now that we have an octagon shaped gate on our joystick it will make it much easier to precisely move the joystick in all 8 directions, since there is now a cutout for the joystick's shaft to come to rest in for every direction rather than just the 4 diagonal directions. To complete the joystick installation just place the Sanwa JLF's plastic shaft cover and dustwasher over the metal shaft on top of joystick then insert the joystick assembly into the controller's housing the same way you removed the original joystick, placing it over the two screw posts in the housing then reconnecting the joystick cable from the PCB and securing the joystick to the housing with the two screws. Once that's done just screw the original balltop (or a custom one of your choosing) onto the top of the joystick's shaft and tighten it down via the flathead screw on the bottom of the joystick shaft, then you're done with the joystick installation. The last thing on our upgrade to-do list is swapping out the stock buttons for a couple real arcade 30mm snap-in buttons, so start by removing the 4 quick-disconnect connectors from the terminals on the bottom of the buttons. Don't worry about which terminal the black and red connectors were attached to, there's no polarity on these type of buttons so it doesn't matter which terminal the black or red wire is connected to. Next, squeeze the tabs on the sides of the buttons to pop them out through the top of the housing. Now that we've got the original buttons out, let's install the new Seimitsu PS-14-G buttons on the left. Just slide in the new buttons from the top the same way you removed the original buttons and... hey! What the heck!? They don't fit! They're standard 30mm snap-in style arcade buttons so there's no reason they shouldn't fit, but there's no way they're going to fit. The holes are about 1.5mm too small to fit the buttons and no amount of force will get them in there. What did the instruction manual say about upgrading the buttons again? Easily replace the joystick and buttons huh? Well, there's no way these new buttons are going to fit so let's e-mail Retro-Bit and see what they have to say about the matter. To their credit, it only took the representative from Retro-Bit a couple hours to reply to my question. Alright, so they want you to use Sanwa brand buttons and some sanding may be required to get a perfect fit. For the time being I put the original buttons back in the controller's housing then placed an order for a couple Sanwa OBSF 30mm Snap-In Buttons from my preferred arcade parts supplier FocusAttack.com, and about 4 days later they arrived in the mail. Alright, lets try this again... Nope, Sanwa buttons don't fit either. Alright, I guess it's time to do some sanding! For this I'll be using a couple small metal hobby files though sandpaper would work just fine as well if you don't have any hobby files, it'll just be a little slower. I decided to start with the B button hole, slowly and carefully filing away material from the inner rim of the hole. File off a little material, test the button to see if it fits, file a little more, test fit again, and so on. You can always take more off but it's a son of a gun to put it back on if you take too much off. After 3 or 4 minutes of filing and testing... Success! Out of curiosity I decided to try the the Seimitsu buttons that I had originally purchased for this controller as well, and sure enough they fit too now... ...though I think I like the color and shape of the new Sanwa buttons a little better so I'll be sticking with them for this controller project. To give you an idea of how much material I had to remove to make the buttons fit, here's a view of the button holes from the top and the bottom. The B button hole has been filed out at this point but the A button has not. Keep in mind that the B button hole is on the left when viewed from the top but on the right when viewed from the bottom. With the B button hole widened just enough to accommodate a 30mm snap-in arcade button, both the Sanwa and Seimitsu buttons snap in rock solid secure with no wobble or side to side movement at all. And don't worry if the filing work doesn't look perfectly even, the rims on the top of the buttons will cover up any imperfections along the edges of the button holes. As long as the new buttons fit securely that's what matters. That said, I did a little filing on the A button hole as well and would you look at that! Alright, now that the new buttons are snapped in securely just connect the quick-disconnect connectors from the controller's PCB to the terminals on the bottom of the buttons, once again remembering that it doesn't matter which terminal the red or black wire connects to since there's no polarity to worry about here. Now the final step is just putting the big plastic plate back on the bottom of the controller, but I quickly discovered that this controller's button problems weren't over just yet! As it turns out, both the Sanwa and Seimitsu 30mm arcade buttons are a little too tall to close up the controller with the plate on the bottom once they're installed. Fortunately, there's a fairly simple solution to this... By carefully bending the terminals on the bottom of the buttons down towards the front of the joystick at about a 30° angle you can reduce the height of the buttons enough to close up the controller without any problems. Alternately, if you'd rather not mess with trying to bend the terminals on the buttons for fear of breaking them there are low profile arcade buttons such as the Seimitsu PS-15 buttons that are short enough to fit in the Retro-Bit Power Stick's housing without having to bend the terminals on the bottom, I just didn't have any on hand and didn't feel like ordering yet another set of buttons for this controller so I went the bendy route. With that, just put the plate back on the bottom of the controller, screw the 6 screws back down, stick the rubber feet back on (and they should still be plenty sticky enough to stay in place, mine were even after removing and re-installing them 4 times over the course of this project) and you're finally done! Final Thoughts So, after all that work what do I think of the Retro-Bit NES Power Stick? In short, it's the best darn NES arcade stick I've ever had the pleasure of using and I would absolutely recommend it to anyone willing to get their hand dirty doing the modding work. For a very affordable $52 ($25 for the Retro-Bit Power Stick and $27 for the Sanwa JLF Joystick, octagon gate, and Sanwa OBSF 30mm buttons) you get a controller that is leaps and bounds ahead of the original NES Advantage arcade stick in terms of parts quality and precision control. That's crazy affordable for an arcade stick with real arcade parts in it, as all my other arcade sticks with real arcade parts in them set me back a bare minimum of $150 to $200, and there's just no comparison between how well this upgraded Retro-Bit Power Stick controls and the original NES Advantage. The counterpoint to all this praise is that in it's stock form the Retro-Bit Power Stick is actually a fair bit worse than the original NES Advantage in the control department, so if you're not comfortable with doing the modding work on it then I'd suggest spending $25 or $30 and investing in a used NES Advantage instead. With the modding work to install real arcade parts done the Retro-Bit Power Stick is an absolute beast of a controller and likely the best option there is for a readily available NES arcade stick, but without the real arcade parts it leaves a lot to be desired. Lastly, if there was any feedback I could give to the designers at Retro-Bit for improving the Power Stick it would be to swap out the plastic plate on the bottom of the controller for a steel plate like the original NES Advantage had to give the controller some extra weight and enlarge the button holes just a tiny bit so that real 30mm arcade buttons fit without having to file or sand out the button holes. Other than that I think it's a wonderful project for NES enthusiasts who don't mind doing a little modding and I would love to see a 6-button Sega Genesis Power Stick produced some day. As it currently stands there are no Sega Genesis arcade sticks available that can be easily modified with real arcade parts, and there are certainly plenty of games on the system that could benefit from such a controller. Having now completed the modding work I'm really thrilled with my Retro-Bit Power Stick and I may very well save up to buy and mod a second one at some point, because I can't think of a better way to enjoy Smash T.V. on the NES than with two of these beauties. Until then, best wishes and happy gaming to you and yours.
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I have a 7800 that has the cartridge guide tabs broken off so the dust covers don't open on 2600 games. Years ago, I inserted some paper clip wires into the plastic while the metal was hot. I'd like to fix this machine decently. Anyone know of a good source for these?
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I've been working on a new resource for Vectrex Collectors and Enthusiasts. I call it the Definitive Guide to Vectrex Collecting. It's a website which includes all Homebrew released games and hardware (eventually original equipment). There is comparisons of all versions and variations of each release as well as pictures and information that is not available anywhere else on the internet. I've tried to offer a good amount of info relating to collecting but for more in depth information of each item, I've provided links to the Vectrex Wikia. Also included is a filterable and searchable checklist which can be used as a rarity list or resource for determining value (how many produced, whether the rom has been released, whether its still available). http://tbone1892001.wix.com/vectrex-guide
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Since some of us collectors are now getting a chance to use computing platforms that we didn't really get much hands-on exposure to way back when, it would be nice if there were "top 20 commands" guides for the various retro-computers. These are great ways to distill the information you'd normally see in a book, down to a page or two. Examples include: http://www.blitter.com/~nebulous/coco.html http://www.blitter.com/~nebulous/amiga.html http://www.blitter.com/~nebulous/msdos.html http://www.oldsoftware.com/Commtips.html (a bit wordy, but still cool) Does anyone have or know of anything like this for other machines? Atari, Apple II, Vic 20, NEC PC-88, TI-99/4A, TRS-80 Model series, Commodore PET, Adam, MSX, etc...
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Good for all. My name is Hector and took almost a year infojuegos programming, a website with games information. For a few days I have begun to upload content and I'm starting with the early consoles, including Emerson Arcadia 2001. I leave the link where you can see the entries for each game as well as the videos of 37 games on my youtube channel. Website and youtube channel Hope you like. At one time I have thought about going up the covers of different clones of Arcadia, but it is very difficult to find in high quality. regards Note: Sorry for my low level of English. But I am from another country and use google traslate
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The original 3-disc King's Quest Collection. Contains King's Quest 1 - 6 and two complete Laura Bow games as well as a bunch of other extras. Also including individual cd-roms of V, VI & VII and The King's Quest Companion book which covers KQ 1 - 5. $50 for everything shipped within the US. Shipping to anywhere else, pm me for quote.
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