Advertising Index
Altronics.................................27-30
Blackmagic Design....................... 9
Dave Thompson........................ 111
DigiKey Electronics....................... 3
Electronex................................OBC
Emona Instruments.................. IBC
Hare & Forbes............................ 6-7
Jaycar..................IFC, 11, 15, 52-53
Keith Rippon Kit Assembly....... 111
Lazer Security........................... 111
LD Electronics........................... 111
LEDsales................................... 111
Microchip Technology................ 37
Mouser Electronics....................... 4
PCBWay....................................... 13
PMD Way................................... 111
Rohde & Schwarz........................ 41
SC GPS Analog Clock............... 109
SC Programming Adaptor.......... 67
Silicon Chip Back Issues........... 14
Silicon Chip Binders................ 111
Silicon Chip PDFs on USB......... 48
Silicon Chip Pico Gamer........... 25
Silicon Chip Shop............ 106-107
Silicon Chip Songbird................ 72
Silicon Chip Subscriptions........ 31
The Loudspeaker Kit.com.......... 10
Wagner Electronics..................... 12
Notes and Errata
Skill Tester 9000, April & May
2024: in Fig.2 on p64 of the April
issue, IC6 at lower left (NE555) is
incorrectly labelled IC2. In Fig.3 on
p69, the V+ and RS labels for pins
4 & 8 of IC9 and IC14 are swapped
(pin 4 is RS, pin 8 is V+ in each
case). In the text on p70, the 33nF,
470nF & 1μF values mentioned in
the third paragraph of the righthand column should be 10μF and
22μF instead. Finally, on p71, the
470nF value mentioned in the
fourth line of the left-hand column
should instead read 33nF.
Next Issue: the July 2024 issue
is due on sale in newsagents by
Thursday, June 27th. Expect postal
delivery of subscription copies in
Australia between June 26th and
July 12th.
112
Silicon Chip
is code that deals with this “NEC
encoding”.
After I compiled and uploaded
the code, nothing happened when I
pressed any button. Can you help? (F.
C., Maroubra, NSW)
● The 0xFFFFFFFF code means
that the IR receiver is seeing an NEC
repeat code. When a button is first
pressed, the remote sends a code
related to the key; then, if the button
continues to be held down, the repeat
code is sent after a delay (repetitively
until you release the button).
For example, pressing “2/up” and
holding it down should see the sketch
receive a code like 0xFF18E7, followed
by a sequence of 0xFFFFFFFF for as
long as the button is held down. This
is handled with the line:
if (code==0xFFFFFFFF)
{code=lastcode;}
Which simply repeats the last command if 0xFFFFFFFF is received. So
it’s quite common to see 0xFFFFFFFF,
but it should only follow another code
if a button is held down.
It seems like the hardware is working because you are seeing something
being received. It would help to know
which sketch you are compiling (IR_
Code_Typer_and_Serial.ino?) and the
output from the bottom window of
the Arduino IDE when you compile
it. More information about your setup
(computer/PC, Arduino hardware)
could also be helpful.
Unable to calibrate
ILI9488-based display
Some time ago, I built the V3 Backpack with the latest firmware (V5.0505)
and have been using it with the 2.8in
ILI9341 display. I also have two 3.5in
and one 4in ILI9488 display. I wanted
to use a larger screen, so I loaded the
ILI9488 driver as per the instructions
and restarted the processor.
However, all three ILI9488-based
displays I have will not calibrate.
After I touch the first two targets, I
get a Touch Hardware Error, but they
all calibrate OK on a PicoMite. (P. C.,
Balgal Beach, Qld)
● This is a new one for us as we have
built many BackPacks with ILI9488based displays and have not had trouble calibrating the touch sensors. Many
of our readers have also built designs
combining the two without reporting
such problems.
Australia's electronics magazine
The fact that they are working with
the PicoMite suggests that the problem
does not lie with the LCDs, and that the
V3 BackPack is working with the 2.8in
panels suggests it’s also fine. Please
send us the output of the OPTION
LIST command so we can check that
the touchscreens have been set up
correctly. Try comparing the result to
the OPTION LIST from the PicoMite.
The Micromite firmware version
5.05.05 was released after we designed
the V3 BackPack; it could be that the
newer version has some incompatibility that we have not seen before. Still,
we would be surprised if nobody else
had reported that by now if that was
the case.
It might be worth trying V5.05.01,
as that is what we used for testing.
You can find older versions of the
Micromite firmware at https://geoffg.
net/Downloads/Micromite/Archives/
Can eFuse be used with
AC for DCC?
I’m building an N-gauge model railway and considering how to manage
the power regions in my layout. I was
wondering if it is possible to adapt
the eFuse featured in the April 2017
issue (siliconchip.au/Article/10611)
for power region protection.
It would be easy if I were planning
on using a DC layout, but I will be
using DCC. As you will know, DCC
is a modulated AC signal at around
4-6kHz. I propose interposing the
eFuse in the DC load side of a full
bridge rectifier, using schottky diodes,
in one leg of my DCC supply. Your
thoughts on this plan would be appreciated. (B. P., Jeir, NSW)
● It should work if you place the
eFuse within a schottky diode bridge
so that only a DC voltage is applied to
it. The rectified DCC would need to be
filtered using a capacitor to remove
the modulation; the result should be
around 15V DC. That’s suitable for
powering the NIS5112 ICs used in the
eFuse project.
The DCC supply must be able to
charge the filter capacitor within the
diode bridge without significantly
rounding the DCC square wave. Each
eFuse IC draws around 2mA, for a total
of 4mA. A 1μF MKT polyester capacitor should be suitable as the supply
filter capacitor. The resulting ripple
would be around 1V when powering
the two NIS5112 ICs.
SC
siliconchip.com.au
