CP Flight ADF Radio Modules - Review

cp flight ADF radio, NAV 1/2 and M-Comm communication module (Flight Deck Solutions).  Note the use of oem 737 DZUS fasteners

CP Flight in Italy is well known for its production of quality simulator parts, in particular their Main Control Panel (MCP) units that work out of the box – literally plug and fly.  This short review is for the ADF Radio modules that I have recently installed into the simulator center pedestal to replace the radios made by SISMO Solicones. Although this short review pertains to the ADF radios, all CP Flight modules are made similarly to the same quality and utilise the same methods of connection.

ADF radios may appear “old school” with many virtual flyers more concerned in learning and understanding the more modern LNAV, VNAV and GPS navigation systems.  It’s important to realize that not all countries comply with the aviation regulations enforced within the United States (FAA).  Many developing nations still use VOR and ADF stations as the primarily means of approach.  Further, knowing how to use and having the appropriate equipment installed to be able to follow these “older style” navigation beacons is often good practice for redundancy and to cross check the results from primary navigation.  Using VOR and ADF navigation is also more challenging, interesting and enjoyable.

Construction and Appearance

The modules are constructed using the same technique that CP Flight uses to produce all their modules and panels.  Each upper panel is made from CNC machined acrylic which produces a very crisp finish and allows any letter cut-outs to be very well defined.  The electronics board, rather than being left “naked” like other manufacturers, is sealed within a lightly constructed metal case.  To allow the user to drop the module directly onto the pedestal rails, each module has overlapping wings that conform to the width of the rail.  To ensure long life, the ADF radio modules incorporate dual concentric rotary encoders with stainless stems rather than plastic stems.

Inspecting the pictures of the ADF radios. you will observe a thin line of light between each illuminated digit.  This is not visible in true life and is only an artifact of using a rather long shutter speed to take the photograph.

High Quality

The knobs and switches, which are custom machine injected, are true to life and are tactile in feel.  As you click through the frequencies the movement is stable and well defined.  There is no catching as the knobs are turned.  The push keys on the units are plastic moulded, backlit and work flawlessly; they do not stick in the down position when depressed, and click back into position when pressure is released.  The frequency displays are 7 segment digits and are very easy to read.  Digit colours are in amber yellow. 

The upper panel of the module is attached to the electronic circuitry within the lower section by a metal backing plate; this increases the strength of the unit and assists in the dissipation of heat.  The modules are a well presented piece of avionics that accurately replicates the functionality found in the real 737 navigation radio. The panel is 1:1 with the OEM counterpart.

A light metal case protects internal electronics and two 5 pin DIN plugs supply connection and power to and from the radio and to other CP Flight components

No System Boards and Daisy Chaining

The modules do not require control boards - they are completely stand-alone.  This minimises the wiring involved and the challenge of finding another location for yet another I/O card.  However, to operate the modules you will require either the CP Flight Main Control Panel (MCP) or the 737MIP board.  Both of these devices provide the power and ability for the modules to connect to and communicate with the main computer and FSX.

CP Flight uses what has to be one of the simplest methods for module connection – daisy chaining.  Daisy chaining is when you have several modules linked by 5 pin DIN style connectors and one cable.  The cables connect in relay between whatever modules you are using and eventually link to either the CP Flight Main Control Panel (MCP) or 737MIP board for connection to the computer via a single USB cable.

Boeing Grey

All CP Flight B737 series modules and panels are professionally painted in "Boeing grey".  I’m not sure how many thin coats of paint are applied, but to date I have experienced no problems with regard to paint chipping or flaking.  Although this last comment may appear trivial, the quality of paint is important.  The modules will be used for many years and during the course of operation, you will be placing pens, clipboards, charts, coffee cups, etc on the center pedestal and the modules.  Further, as the units are flat, dust will accumulate requiring dusting and cleaning.  Low quality paint will scratch, fade and wear thin with time.

The observant will note that there is a difference in colour shade between the modules made by CP Flight and Flight Deck Solutions.  A purist may argue that this is not realistic, however, I disagree.  Through time, Boeing has used several shades of what has been coined "Boeing Grey" and it is not unrealistic to have modules sporting different shades of the baseline colour.  Different avionics manufacturers (in the real world) also use different colour shades of "Boeing grey". 

DZUS Complaint

If you are utilising real aircraft parts in your simulator, in particular a center pedestal, then any module that is DZUS complaint is advantageous as it allows for the module to be dropped directly onto the DZUS rails and secured by the DZUS fasteners.  Unfortunately CP Flight fails in this area as their modules are not DZUS complaint.  Each module has the appropriate holes drilled; however, they only fit replica DZUS fasteners (supplied).  The width of the hole is too small to install genuine DZUS fasteners; you will be required to drill the hole a little larger to accommodate the genuine B737 fastener.

This picture illustrates the fit of the CP Flight ATC panel to the rails of an oem center pedestal Each panel is very closely aligned to the holes in the rail enabling the replacement of reproduction dzus fasteners with oem dzus fasteners

Back-Lighting

The ADF modules are back-lit by several strategically placed LED lights.  This is commonplace within the industry with the exception of some high-end suppliers such as Flight Deck Solutions which use their own IBL back lighting systems utilising real aircraft bulbs.  I have no issue with the back lighting and the module is evenly lit, illuminating all cut out letters.

CP Flight Module Set-up

The modules are stand-alone and do not requite software to be installed for operation – they are plug and fly; however, to connect the modules (via daisy chaining) to the computer via a single USB cable, either requires the CP Flight Main Control Panel (MCP) which acts as a power source amongst other things, or the dedicated 737MIP board.  Software is required for the operation of the MCP and 737MIP board and can be downloaded from the CP Flight website.  The software is easy to install and to configure. 

Downside – Ghosting of COM Port

I’ve already discussed the simplicity of daisy chaining and the benefits of not needing to use a multitude of wires and I/O cards; but, everything comes at a price and CP Flight’s “Achilles Heel”, is the method they have chosen to connect everything to the computer.

Modules are connected to and from each other and to the MCP or 737MIP board via daisy chaining.  The MCP or 737MIP board provides the power to run the module and allow information to travel between the computer and the module. The MCP or 737MIP board is then connected to the computer via a single USB cable.  To connect to the computer requires that a COM port is ghosted to replicate a serial port. 

Whilst this process is automatic, and occurs when power is applied to the MCP or 737MIP board, many users experience problems with the software ghosting the port.  Usually the ghosting issue is solved with appropriate drivers and once the connection is made once, rarely is this problem again experienced.

Reliability and Performance – Software and Modules

Software

No problems, other than the initial connection problems that “maybe” associated with the ghosting of the COM port.

Modules

There is no time lag when altering frequencies; the digits spin as fast as you can turn the dial.  Drop outs have never occurred.  The tone switch operates correctly and always listens for and connects with the correct marker morse tone.  It’s important to note that the tone switch does operate as designed and can be used to switch off the “somewhat annoying” morse tone which is heard, when in range of the ADF.

Support

Support from CP Flight is either directly via e-mail or by a dedicated forum.  The support provided by CP Flight is exemplary.  Paolo from CP Flight stands by the products he sells and every effort is made to ensure your modules work as advertised.  There is absolutely no problem dealing with this company as the owners are very trustworthy and deliver what they promise.

Quick List – Pros & Cons

PROS

  • Well designed & constructed

  • Realistic quality machine-injected switches & stainless rotaries (not plastic)

  • 1:1 to the real B737 series aircraft

  • Good attention to detail

  • Operational morse tone switch

  • Strategically positioned backlighting

  • Very easy to set-up and connect (daisy chaining)

CONS

  • Ghosting of COM port can be an issue when using MCP as connecting equipment (no experience with 737MUIP board)

  • Non DZUS compliant

Overall Opinion

I am very impressed with these modules.  They are solid, well constructed and operate flawlessly out of the box!  The quality of the modules is very high and it’s a pity that they are not made to be DZUS compliant.  They suit the high end enthusiast to professional market.  

My rating for the modules is 9/10

Please note that this review is my opinion and is not endorsed by CP Flight.

Look Dad - No Mouse! - CP Flight PRO MCP & EFIS Installed

cp flight pro mcp

In an earlier Journal entry, I mentioned that the CP Flight main control panel (MCP) PRO version I had purchased last September (before I embarked on the B737 Project) appeared to be faulty.  For some reason the MCP would not register on the USB port of the computer.  After many hours of wasted time, I returned the unit to Italy for either repair or replacement.

Just before Easter I received a replacement unit.  Paolo from CP Flight had decided to replace the electronics. 

Installation & Configuration

Installation of the CPF software and configuration of this new unit worked first time without any problem whatsoever.  Configuring the MCP to operate with Sim Avionics was straightforward and required some basic changes to the Server.exe configuration files.  I also had to clone the TCP_Client.exe and MCP.exe folders and copy these to the main server computer that has FSX and the MCP installed.  These folders and files need to be installed on the same computer as the MCP software and hardware is installed to allow Sim Avionics to recognise the device.

Simulator Start-Up Procedure

So what happens now is that I start FSX on the main server computer, then once FSX is running and the flight is open, I activate the MCP.exe shortcut which turns on the CP Flight MCP.  The process of the MCP.exe been turned on triggers the TCP_Client.exe to open and search for it’s counterpart on the network.  Turning on the Sim-A Server.exe (via a batch start file located on the client computer) allows the programs to communicate and the appropriate software to open on the flight deck.

cp flight pro mcp backlighting

Backlighting – An Initial Mystery

To connect the CP Flight backlighting was a mystery until SIM-A support informed me that you can either select a check box within the SIM-A server display window which causes the backlighting to be permanently on, or create a FSUIPC offset to a switch using the aircraft’s storm lights for manual activation.  I choose the later and have the backlighting set to a toggle on a GoFlight module.  This will suffice as I do not as yet have an overhead installed.

My Opinion of the Unit

The CP Flight MCP and EFIS unit has been discussed many times in various reviews and on U-Tube; the consensus being that the majority of users are very happy with the product.

The unit is well made, is aesthetically pleasing, and works as it should.  The backlighting is very good and the green buttons that indicate whether a function is turned on or off are very visible.  The unit is quite light in weight compared with other MCPs on the market, so it must be installed solidly into the MIP to minimise movement when pushing buttons, etc.  The solenoid operated A/T switch is a nice change to the normal flick type switch and the use of replica DZUS fasteners is a nice touch.

CP Flight support is also beyond reproach.  Paolo is helpful, courteous, and attempts to find solutions when a problem is evident.  I had an issue with my first MCP and Paolo spent considerable time with me working through issues attempting to find a solution.  CP Flight is not a “buy and forget” you type of company.

cp flight mcp pro

Major Advantage

One of the major advantages in using products from CP Flight is the very easy connectivity with other CP Flight modules.  The CP Flight family of modules are connected together by a daisy chain system.  A 5 pin (5 pole) DIN cable connects each module to each other with the main power being supplied by the MCP and its external 6 Volt power pack.  Connection to the computer is via a single USB cable.  What this makes for is a very simple, clean and modular way of installation.  There are no cards to connect or to find homes for -  nor any messy wiring.

Caveat

The only caveat is that the size of the MCP and EFIS are not an exact 1:1 ratio to the OEM 737 MCP and EFIS.  The CP Flight instrument is slightly narrower that the OEM counterpart.  Whilst this is not a major issue, it does pose a slight problem if you are using an OEM MIP, or a MIP that is sized correctly to the real part. 

If you are using a MIP made by FDS, an additional bracket assembly is required, and even then there is a slight gap between the MIP and MCP unit.

This brings me to an interesting point.  Not all MIPS are the same size nor are they all an accurate 1:1 ratio.  CP Flight is used  exclusively with the MIP produced by Fly Engravity, so it stands to reason that the Fly Engravity MIP will fit the CP Flight products accurately.  if you are using another brand MIP, then it is best to check before hand to ensure that the CP Flight avionics will fit correctly.

Nice to Fly without a Mouse….

Whatever the difference in size, It’s very pleasing to be able to fly without a mouse and have something to fill the gaping hole in the MIP.  I’ve solved the issue of the spacing difference by cutting some thin acrylic to the appropriate size and painting it Boeing grey.  Once fitted, you barely notice the slight gap.  Sometimes you have to compromise...

Although this post is not a review, if pressed to give a rating it would be 8.5/10

Now that the MCP and Captain EFIS is fitted and working, I need to order an additional EFIS unit for the Flight Officer side. 

Next on the agenda will be to populate the avionics for the center pedestal. 

Update

on 2015-09-23 13:03 by FLAPS 2 APPROACH

The CP Flight connection issues that were occurring have been rectified by a software update from CP Flight. With connectivity reassured, I have ordered additional CP Flight panels (two ADF navigation radio panels and a rudder trim module).

First Officer EFIS

The second EFIS has arrived and has been installed into the simulator.  The ease of installation of CP Flight modules should not be taken lightly; they are literally plug and fly.  To install the second EFIS unit involved me connecting a 5 pin DIN cable from the Captain side EFIS to the FO EFIS unit.  I also had to move the small slider pin on the rear of the unit to reflect either captain or first officer.

I wish all panels were this easy to install.