background image

the LEDs visible on the front panel of your equipment. After all, which of us does not like 
blinking lights on his equipment, and generally the more the merrier. 

In this case, you can connect wires at pin header PH1, as follows in the diagram (right). 

The cathodes (negative, indicated by black lines)
of the LEDs are connected to the pads nearer
the center of the board; the anodes (positive,
indicated by red lines) are connected to the pads
nearest the board edge. The sequence of the
pads, is as three pairs from left to right, as
Power (RED), Serial data (YELLOW) and 1pps
(GREEN) – in other words, the same order as
that of the SMD LEDs on the board. 

You would also need to cut the thin exposed
tinned copper traces on the underside of the
PCB, in order to disconnect the onboard LEDs. This should be done with a sharp knife, 
carefully so as not to damage any other nearby traces. 

3.4

Fitting an ultracap (a.k.a. supercap)

There is a place on the QLG2-SE board to fit an ultracap (a.k.a. supercap). This is a lot 
more reliable means of providing backup power, than the little rechargeable battery on the 
QLG1.

Backup power permits the operation of the internal Real Time Clock (RTC) in the GNSS 
module and also retains the downloaded satellite ephemeris data, which will enable a hot-
start (satellite fix computation) within a second or two of power-up. 

Most amateur radio applications will not need this, but the pads are made available on the 
board in case you do wish to use it. 

Be careful to observe the correct polarity to avoid a possible bang and a nasty chemical 
mess (don’t ask me how I know about this, either). 

The black arrows on the capacitor 

body point to the negative pin. 

The photograph shows a 0.47 Farad, 5V capacitor installed on the QLG2 board. The 
position is the same on the QLG2-SE board. 

The pads are separated
by 0.2-inches (5.08mm)
and the capacitor fits
perfectly. 

This capacitor

appears sufficient to
backup the QLG2 GPS
for at least 12 hours. 

QLG2-SE manual 1.00

7

Содержание QLG2-SE

Страница 1: ...Assembly 5 3 1 Assembly for basic operation 5 3 2 Use with QCX U3S Clock VFO ProgRock etc kits 6 3 3 Status LEDs 6 3 4 Fitting an ultracap a k a supercap 7 3 5 6 pin interface header 8 3 6 Interface...

Страница 2: ...PPS 2 8 to 5V logic level conversion to provide 5V serial data for full compatibility with all QRP Labs kits Supports 2 8 3 3V logic OR 5V logic jumper wire selected SMD assembly already undertaken by...

Страница 3: ...Kit contents Know your QLG2 QLG2 SE manual 1 00 3...

Страница 4: ...the serial port pads are connected allowing either 2 8 3 3V logic or 5V logic levels Break strip this line of drilled holes allows you to easily snap off the right hand part of the board if you would...

Страница 5: ...allation IMPORTANT The body of the SMA connector WILL DEFINITELY short to the center pad of the component footprint on the board This will not only short out the antenna rendering it completely ineffe...

Страница 6: ...essor the QLG1 the QLG2 SE module has the same three LED status LEDs In the case of QLG2 SE these are 0603 size SMD LEDs installed on the PCB near the GNSS receiver module LED 1 red is the Power LED a...

Страница 7: ...ultracap a k a supercap There is a place on the QLG2 SE board to fit an ultracap a k a supercap This is a lot more reliable means of providing backup power than the little rechargeable battery on the...

Страница 8: ...ata output from the GNSS module By default this is at 9600 baud and is 5V logic level which is suitable for use with QRP Labs products such as QCX Ultimate3S VFO and Clock kits Note that this signal i...

Страница 9: ...onnected from the center of the group of three pads to the top pad LOWER means the jumper wire is connected from the center of the group of three pads to the lower pad 1 PPS voltage level UPPER 5V log...

Страница 10: ...QLG2 SE manual 1 00 10...

Страница 11: ...323 IC1 74ACT08 IC SOIC 14 IC2 MIC5219 3 3 IC SOT23 5 L1 L2 1uH Inductor 2012 LED1 Red LED 0603 LED2 Yellow LED 0603 LED3 Green LED 0603 M1 E108 GN01 GNSS Module 16 x 12 mm Q1 BSS123 Transistor SOT23...

Страница 12: ...vels required by other QRP Labs kits is done using a 74ACT08 quad AND gate chip it is not used as an AND gate all gates have their two inputs tied together it is simply used as a logic level converter...

Страница 13: ...b page also contains links to the E108 GN01 datasheet and the GK9501 command reference For any questions regarding the assembly and operation of this kit please join the QRP Labs group see https group...

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