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Tamiya VW Golf Racing Group 2 (CS) - #58025 (Radio Controlled Model Review)

1/12 Scale Electric Racing Car - Golf-CS Chassis:

  Released on August 22, 1981, this Tamiya model is of the VW Golf. Made in Germany the Golf was a very successful replacement for "the people's car" the Beetle. It gained popularity in Europe and also in the USA where it was known as the Rabbit.

  This was Tamiya's first attempt at this genre of RC car. Although the model emulates the original racing touring car the box type lexan polycarbonate body shell wasn't the most aesthetically pleasing of Tamiya's early models.

Tamiya VW Golf Racing Group 2 (CS) - #58025 - 1:12 Electric Model
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  Assembly and set-up of the VW Golf was simple, the car was fast with the RS 540S motor and bevel gear differential and was relatively easy to handle, but plastic parts made for fragility. Replacement parts were soon difficult to find and there were few hop-ups to make the car more competitive unless you were able to engineer them personally.

  Surprisingly, quite a few NIB kits of this car are available, considering it is only number 25 of Tamiya's First 100 vintage classic RC models.


      Rating: 3.53.5 Stars out of 5 Reviewed by: RCScrapyard     Manual.

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Tamiya VW Golf Racing Group 2 (CS) #58025 - Chassis
Tamiya VW Golf Racing Group 2 (CS) #58025 - Chassis

Tamiya VW Golf Racing Group 2 (CS) #58025 - Chassis
Tamiya VW Golf Racing Group 2 (CS) #58025 Chassis

Tamiya VW Golf Racing Group 2 (CS) #58025 - Chassis
Tamiya VW Golf Racing Group 2 (CS) #58025 Body Shell


General Information and Advice

   For those starting in Radio Controlled Racing, here are a few Hints and Tips: Firstly, buy a Kit not an RTR. That way, if something breaks you will have some idea how to fix it.

   Radio Controlled Model Cars are very fragile and easily broken. The main parts to protect are the Front Wishbones, Suspension Shock Towers, Dampers, Hub Carriers, Kingpins, Uprights and Toe in Blocks, so make sure you have a good strong front bumper and Lexan or Hard Plastic Body Shell and if available for your model, a protective under tray, to prevent grit and dust getting into any moving parts.

   The Steering Servo is also a weakness in high speed crash situations, so get yourself some good strong Servo Mount and Servo Saver. Also I would recommend Titanium Shafts, Turnbuckles, Tie Rods and pivot/steering shafts and if available for your model, lightweight Titanium Drive shafts, dog bones and CVD (Constant Velocity Drives). The standard steel types are far too easily bent.

   Gearing is another problem area on RC model cars. Head on collisions can easily break off gear teeth on Nylon/Plastic Spur Gears and even Bevel Gears inside the Gearbox. Heavy impacts can also loosen nuts and self taping screws that hold the Motor in Position, allowing the Pinion Gear to pull out of mesh slightly and rip the tops of the teeth on your Spur Gear. To avoid this to some degree, fit locking nuts and a new motor mount from time to time, so the self taping screws that hold the motor in position have less chance to come loose.

   Ball joints always cause problems. For top level Radio Controlled model car racing, the plastic ball connectors should be checked and if deemed necessary changed after every meeting. A simple thing like a loose fitting connector breaking free could easily end your race, so better safe than sorry.

   Many New car kits come with Nylon and Sintered Brass Ring type bearings. My advice is to discard these before initial installation and buy a good Hop-up set of Shielded Steel Ball Bearings. Or if you are serious about your racing, Teflon or Ceramic Bearings.

   One final piece of advice about the Setup of your Car. Keep the Centre of Gravity as low as possible. Ride Height is all important. For On Road Drift/Touring cars the Ride Height should be no more than 5mm, for Buggys, Trucks, Truggys and Monster Trucks, as low as possible depending on the track conditions. If Body Roll is a problem, handling can be improved with the use of Stabilizers, Anti roll or Sway Bars, stiffer Tuning Springs and, or thicker Silicon Oil in the Dampers. Also find somewhere to mount the Transponder as low in the Chassis as possible.

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Hints and Tips


Rechargeable Batteries
for RC Models


   At the time this article was written, there are four types of Rechargeable Batteries that are commonly in use of Radio Controlled Models.
Ni-Cad (Nickel Cadmium) Batteries have been around the longest. My first stick battery, purchased way back in 1987 was rated at 1200Mah (Mili Amp Hours) and with a silver can 27 Turn motor my Tamiya Boomerang would run around in the back yard for a good seven minutes before slowly coming to a stop. Ni-Cad development continued until around 1998 to a maximum rating of around 2000Mah and matchers pack builders and battery technicians were able to put together six cell packs with voltages approaching 7.4 Volts, to give those that could afford them, an edge over the rest.

   Ni-Mh (Nickel Metal Hydride) Batteries came along in the late 1990s and by the year 2000 were available at ratings up to 3000Mah. Again, matchers and pack builders worked hard to provide the ardent racer with packs to provide that little bit of extra power and ESC manufacturers also chipped in with improved controllers to take full advantage of this new technology.
   Now the problem wasn't gearing the car to get to the end of the race using the available battery power, but to find the brushed motor that could handle gear setting that provided the speed and acceleration without the motor overheating and wearing the commutator too much so it needed a skim after every 2 runs. My favourite at that time was the 9 Double.

   More recently, Li-Po (Lithium-Polymer) Batteries have appeared on the scene, providing are a huge step forward in performance when compared with Ni-Cad and Ni-Mh batteries. However, Li-Po Batteries are much more expensive than previous battery types, have a shorter effective life of between 200 and 400 charge cycles, compared to well over 1000 charge cycles for Ni-Cad and Ni-Mh and a high degree of care has to be taken when charging Li-Po batteries. They have been known to burst into flames or even explode, for this reason I do not recommend Li-Po batteries for RC beginners.
   Another problem with Li-Po packs is they are physically bigger in size, so for those with older "Vintage" models, they may not fit into the provided space for the battery on the chassis.

   The latest development in battery technology for RC are Li-Ion. Originally produced for Laptops, Ipods, Tablets and the like, they are now available for RC models. Much like Li-Po for price and charge cycle life, the power and capacity is a moderate improvement, but for me, at the moment, not worth the expense.

   One final word of warning. NEVER leave your charging Li-Po or Li-Ion battery unattended when being charged and NEVER above the recommended charge rate. After use, store each battery with about 60% charge remaining and always in a fireproof bag.


For More Setup Information check out my Hints and Tips page.

Hints and Tips

Radio Gear

How to avoid Interference.


1/  The first consideration when installing your Receiver into your Electrically Powered Model is to make sure it is well away from the Negative Battery terminal and the Motor. The Magnetic field can cause stuttering type interference at times of high current draw (i.e., Fast Acceleration)

2/  Make sure the Ariel tube is long enough for the Ariel wire. The tip of this wire is highly sensitive and should be as high and as far away from the Motor as possible (yup, its that magnetic field prob again)

3/  If all else fails, a simple tip that often works for all RC Model enthusiasts is to wrap the receiver in Aluminium Foil, to shield against any magnetic and external radio interference.

4/  As a last resort, to protect against servo twitch, try ferrite beads. (available at Radio Shack or Maplins) These are threaded over the red, white (or yellow) and black wires of each servo.

5/  If you are using a FET Servo, the installation of a choke (a small electrical component) in the positive feed wire will smooth out any current spikes and reduce the possibility of "servo twitch".

6/  Another thing you might try is a "glitch buster" or "stutter stopper". Basically, this is a capacitor that simply plugs into your Radio Receiver and attempts to keep a level voltage supply to the Radio system.

For More Setup Information check out my Hints and Tips page.








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