OK, so here is some information about the unit that I used, as well some detail regarding its fitment, this to give you a sense of the effort involved.
Sourcing information
The unit I bought was listed and ordered through a South Africa web site (
www.bidorbuy.co.za). I believe that the unit was supplied by a local, up country vendor (
www.autostyle.co.za).
The actual unit is listed on the Autostyle website under the following URL:
https://www.autostyle.co.za/product/autogauge-tacho-smoke/
The tachometer is 52mm in diameter, is for 12 volt negative grounded vehicles, reads up to 10,000 rpm over a 270 degree display, and includes a selection switch for the number of cylinders. The product leaflet states that the unit is controlled by a stepper motor.
The price was 550 ZAR, including delivery to my door. That’s about 40 US dollars in real money. It’s not clear from the website whether Autostyle ships overseas but, if they do, then shipping may increase the cost.
The actual unit is made in Taiwan. The only code available is on the barcode sticker. It is:
52ASMTASWL-270. I can’t say whether this code originates from the manufacturer, or from the local vendor.
Pics are attached of the packaging and the info on the underside of the unit.
What was in the package?
A tachometer.
A wiring harness (4 wires) with a connector that slots into the unit’s underside.
A simple metal mounting bracket.
Two pillar bolts, nuts and washers.
One page of installation instructions. (Image attached)
Initial testing
I tested the unit in two modes. Firstly by connecting the green (tacho input) wire directly to the ND ignition coil (negative terminal, black wire), and then to the Ignitech tacho feed. The unit seemed to function identically in each mode.
What I did find, was that the dial was always illuminated when the unit was under power. The unit makes provision for a connection, via an orange wire, to the headlight wiring, and the instructions refer to ‘dimming’ facility. However, I could not get this function to work, and have therefore not connected this wire on the RGS. The lighting is via a tiny LED, which is not accessible.
Fitting the unit in the Veglia instrument pod
Some modification to the new tachometer was required.
The tacho recess in the Veglia is too small to accommodate the 52mm body of the new tach. This necessitated the removal of the plastic housing of the new tach, easily done by levering off the thin aluminium beading that secures the dial lens to the body.
This done, a second issue (the first being the permanent lighting) became evident. I could not pull off the dial pointer from the shaft of the new tach. The plastic pointer was not secured to the tach shaft via a steel needle, as is done on the Veglia unit, but was cemented onto the 4mm shaft. I had to cut off the pointer with a Dremel and fit my own needle to the remaining portion of the shaft. Fortunately the 4mm shaft already had a tiny hole in the centre, which aided the needle fitment. The Veglia uses a .9mm needle, so I used the shank of a .9mm drill bit, which I cut to length and cemented into place once I had spaced the body of the new tach to match the height of the Veglia tach facia.
The new tach body was secured to the bottom of the Veglia housing via the two pillar bolts on the underside of the new unit. The two holes drilled in the Veglia unit were positioned so as not to obstruct refitment of the male wiring connector at the back of the Veglia housing. I also added some rubber spacers to aid stability and to insulate the unit from vibration, although this was probably unnecessary.
Wiring
As mentioned elsewhere, I soldered the wires of the new unit to an electronic matrix board (see pic), thereby simulating the wiring terminals on the Veglia tach (pic attached). This enabled enable reuse of the special Veglia wiring sheet and securing clip (pics attached), all of which obviated the messy business of splicing the new wires into the existing wiring harness. The attached pic shows how the Veglia wiring was matched to the wires on the new unit.
The matrix board itself was secured to the underside of the Veglia dial facia via the two screws that previously attached the facia to the top of the old Veglia tach body.
I also used rubber spacers, positioned to allow routing of the new wiring, fitment of the Veglia wiring securing clip, and to space the Veglia dial facia to allow fitment of the tacho dial pointer. The attached pic illustrates how I mounted the new tach body, the matrix board, and the Veglia facia.
Calibration
The Ignitech ignition software enabled accurate calibration of the new tach. Other than confirming that the new unit functioned when connected directly to an ignition coil, I cannot tell how accurate the readings were. However, the Veglia tach wiring connected via a matrix board can be used together with the old ignition.
Finally
Overall, I’d say that fitting the new unit was straightforward, but finicky. Other than the shaft and needle issue, the effort was as expected. I reckon that you’ll encounter the same sort of wiring and mounting problems regardless of which generic unit is used to replace the old Veglia.
Lastly, I have no special knowledge of these matter. What I know is derived from my experience of years of motorcycle ownership and maintenance. And my electrical knowledge is almost non-existent.
Hope this all helps, rather than confuses.
Tom
