PPG 314 Sequential Controller

PPG 314

Introduction The PPG 314 analog sequencer dates back to 1976 and the beginnings of PPG when they were a modular synthesizer company. The first PPG sequencer in the 100 series was a straight copy of the Moog 960, but the 300 series sequencer was a more advanced design. It was still only 8 steps and 3 CV’s but it had dedicated controls for step timing and for moving around the sequence itself. Accurate switched step timing was also used in the Roland 717 and the Synthanorma around the same time.

In 1976 I was about to go to the University of Essex and study electronic engineering, whilst I had heard analog sequencers on records by Klaus Schulze and Tangerine Dream, I had never seen or owned one. I just had my trusty PE Minisonic synth! The PPG 314 which sold for £2,000 was way out of my reach, it was a years salary!

How Does it Work The arrival of CMOS logic chips in the 1970’s really opened up sequencer circuit design, thanks to its low power consumption compared with TTL (ARP 1050). The PPG 314 uses a decade counter at its core (4017) producing 8 steps, to drive 3 sets of CV’s that are summed using 741 Op Amps.  The value of each of the 3 CV’s is set by a potentiometer for each of the 8 steps.

The single sided Controller PCB is hard wired into the Main PCB and contains the 4017 counter chip and five 4011 NAND logic gate chips that buffer the 8 step positions into the CV’s and provide the logic control. There are also individual gate output for each step, which goes directly to the jack sockets.

The Main PCB is doubled sided (with no silk screen) and it holds all the potentiometers, LED’s and rotary switches, with the 6.35 mm jack sockets mounted directly to the panel.

Voltage Controlled Clock This circuit lives on the main PCB and is based on another 4011 configured as a VCO with variable pulse width. Whilst Emu Systems and Roland were using analog VCO’s in their sequencers, PPG opted for a simple CMOS version. There are Rate and Pulse Width (0 -100%) potentiometers and a LO/HI Range switch, as well a switch to turn the external control of sequencer rate OFF or ON. A green LED shows clock rate, and there are START and STOP push buttons which are mirrored as trigger input jack sockets. This enables remote control of the 314.

Step Timing The timing control for each step is preset via a 6-way rotary switch, with these timing divisions; 1, 1/2, 1/4, 1/8, 1/16 and 1/32. This is a great feature for setting up accurate rhythmical sequences, as the Moog 960 uses a potentiometer which makes timing accuracy difficult. With separate timing control the 314 retains three rows of CV control, without scarifying one row for timing. The timing is controlled via a precision voltage patched by the switches into the clock.

Programming The lowest row of 6-way switches are for programming how each step works, and provides another level of real time control. The six positions are;

  • LAST – previous step values are used for this step
  • GO NEXT – skips the step
  • GOTO 1 – moves to step 1, and starts again
  • STOP – stops at this step, and repeats
  • SEL TRIG – sends a trigger to the SEL TRIGGER output
  • NORMAL – sequences step by step

On the front panel the lettering is a bit cryptic with a solid circle as STOP and an arrow as SKIP. The GOTO 1 is not marked as available on Step 1 and 2 for obvious reasons, but its still wired up but it means you never move off Step 1.

AM314 Panel Mockup

AMSynths 314 As part of my “Big Moog” project I wanted to replicate the PPG modules that Klaus added around 1976/77 to his Moog IIIP. These consisted of a set of analog voice modules (VCO, VCF, VCA, etc.) and a pair of 314 and 313’s. I was lucky enough to have been given some photos of the inside of some of these modules including the 314, which meant I could reverse engineer most of the circuits.

The core of the sequencer is the standard 4017 decade counter but with the unique feature of being able to skip a step. Usually designers had to use a ladder of flip flop circuits to enable jumping seamlessly to the next step. Wolfgang Palm achieved this just using the 4017 which makes for a very efficient design. The 314 clock is based on a CMOS 4011 chip, and the timing switches use precision resistors and feed a voltage back into the Clock VCO. I have recreated all of the six function modes including LAST, SKIP and GOTO1.

The Euro Rack AM314 has condensed all the controls and circuitry onto 2 PCB’s, a Panel PCB and a Main PCB (Clock and Sequencer Controller). The prototype PCB’s were laid out in Spring 2021 and ordered in July. A 68HP wide panel was also mocked up to ensure all the switches and pots would fit and the lettering was in the right place. This leaves space for the 16HP 313 Sequential Switch in an 84HP wide case,



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