Difference between revisions of "Output Attenuator"

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[[File:PE43703 pre-mod small.jpg|480px]]
 
[[File:PE43703 pre-mod small.jpg|480px]]
  
The solder blob at J7 connects the LE line to +5v.  This blob needs to be sucked or solder-wicked away (taking the usual anti-static precautions).  Check with a test meter that there is no connection between the 2 halves.
+
The solder blob at J7 connects the LE line to +5v.  This blob needs to be sucked or solder-wicked away (taking the usual anti-static precautions).  Afterwards, check with a test meter that there is no remaining connection between the 2 halves.
  
 
There is also a parallel/serial switch line that is initially set to parallel.  To set it to serial (0v), remove the blob at J4, and create a new blob at J3.  Check that J4 has really been disconnected!  The top picture on this page shows the unit after modification.
 
There is also a parallel/serial switch line that is initially set to parallel.  To set it to serial (0v), remove the blob at J4, and create a new blob at J3.  Check that J4 has really been disconnected!  The top picture on this page shows the unit after modification.

Revision as of 14:58, 12 January 2018

Introduction

It is possible to add a programmable output level attenuator to the Portsdown transmitter. As of software version 201801061, the output attenuator can be used to adjust the output level of the Portsdown Signal Generator. It is planned that a future software version will allow programmable output levels to be set for each band (and possibly for additional transverter outputs).

Attenuator Types

Attenuators based on the PE4302, PE4312, HMC1119 PE43703 or PE43713 are supported. The PE4302 and PE43703 types are readily available on eBay for under £20. The preferred type is the PE43703 illustrated here with its screening cover removed:

PE43703 post-mod small.jpg

Data sheets are available at these links:

http://www.psemi.com/pdf/datasheets/pe4302ds.pdf 
http://www.psemi.com/pdf/datasheets/pe43703ds.pdf 
http://www.analog.com/media/en/technical-documentation/data-sheets/HMC1119.pdf.

Preparation

As supplied, the eBay pre-built attenuator boards are generally configured for control by DIP switches, not by a Raspberry Pi. NOTE THAT IF CONNECTED WITHOUT MODIFICATION THEY MAY KILL YOUR RASPBERRY PI! The modification details for one of the PE43703 boards are detailed here - your board may differ! Please could a PE4302 owner publish similar information??

There are 3 signal lines used to program the PE43703: LE (Latch Enable), CLK (Clock) and Data. For DIP switch programming the LE line is connected to +5v. This line needs to be disconnected from +5v otherwise it will try to put 5v on a 3.3v RPi GPIO output. Referring to the picture below (pre-modification):

PE43703 pre-mod small.jpg

The solder blob at J7 connects the LE line to +5v. This blob needs to be sucked or solder-wicked away (taking the usual anti-static precautions). Afterwards, check with a test meter that there is no remaining connection between the 2 halves.

There is also a parallel/serial switch line that is initially set to parallel. To set it to serial (0v), remove the blob at J4, and create a new blob at J3. Check that J4 has really been disconnected! The top picture on this page shows the unit after modification.

Apply power (5v) to the unit. If all is well, the power LED should light; if not, recheck J4. Then check the voltage on the DATA, CLK and LE pins. They should all be at 0v. Using a 1K resistor, check that each of them can be pulled up to 5v. Only after these checks is it safe to start connections to the RPi.

Data Connections to the Raspberry PI

The attenuator will share the clock and data lines used by the ADF4351 synthesizer. A separate LE line is used, connected to Pin 10 of the GPIO connector. This pin can be accessed from the "DigiThin" connector on the Portsdown GPIO board.

During testing it has been found that connecting the attenuator board can cause the ADF4351 to fail to start; it seems to be particularly fussy about the rise times on its programming signals. To overcome this problem, and to prevent any possible damage to the Raspberry Pi from the +5v present on the attenuator board, it is recommended that the 3 signal lines to the attenuator are connected through 1K resistors. The connections are as follows:

Signal GPIO Pin Notes
LE 10 through 1K from DigiThin Connector
CLK 29 through 1K from ADF4351 CLK
DATA 31 through 1K from ADF4351 DATA

RF Connections

The attenuator should be wired between the RF output of the Filter-modulator board and the input to the 4-way switch. That way it will be in-circuit on all bands. Note that it should only be put in-circuit for use with the signal generator at present. a further software update is required before it can be used with the Portsdown DATV transmitter.

It could also be placed directly on the second output of the ADF4351, and the signal generator software allows for this. However, this is for a direct output, and will not work as a means of altering the output level from the Portsdown filter-modulator.

RF Switching

When the Portsdown output of the Signal Generator is in use without modulation, the output is always fed through the 23 cms output of the 4-way switch. This is because it is the port with the lowest loss and provides the full frequency coverage from a single port.

However, if modulation is selected on the Portsdown Signal Generator, the output is fed to the appropriate output port for the frequency selected. There are 2 reasons that this design decision was made: firstly, the mode is intended for adjusting drive levels to transmitters, so it seems logical to use the output connection appropriate for the transmitter; secondly, for a high quality DVB-s signal, the appropriate LO filter needs to be switched into circuit, and the filters are switched by the same lines as the output port switch.

Attenuator Loss

When the attenuator is set to 0dB, it has an inserion loss of about 2dB (increasing at higher frequencies).