Difference between revisions of "ER-MOZZI-DB-03"

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(Created page with "FILE:ER-PROTO-02-MOZZI-DB_P1080850-720PX.jpg == Features == * Daughtercard to ER-PROTO-02 card ** Uses Front Panel and Controls card *** Controls card populated as r...")
 
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* The [[ER-PROTO-02]] controls card has 6 pots (RV1-RV6) and 6 jacks (J1-J6)
 
* The [[ER-PROTO-02]] controls card has 6 pots (RV1-RV6) and 6 jacks (J1-J6)
* One jack is a dedicated output (J6) connected to Hi Def output Arduino pins D9, D10
 
 
* The Arduino NANO has 8 Analog Inputs (0-7)
 
* The Arduino NANO has 8 Analog Inputs (0-7)
* RV1-RV3 go to Analog Inputs 0-2
+
* RV1-RV6 are brought into the card
* 3 Analog Inputs (Analog Inputs 3-5) get shared between 3 pots (RV4-RV6) and 3 jacks (J1-J3)
+
* 6 Jacks
** If a jack is inserted, the jack is used and the pot is not connected
+
** J1-J5 Jacks can be used for analog inputs, digital inputs or digital outputs
** If a jack is not inserted, the pot is used
+
** J6 Jack is a dedicated output (J6) connected to Hi Def output Arduino pins D9, D10
* 2 Jacks (J4-J5) go to Analog Inputs 6-7
 
 
 
=== A0 - Analog Input 0 ===
 
 
 
* RV1 wiper, 0-5V
 
* Install jumpers on controls card to pull up/down lines to pots
 
 
 
=== A1 - Analog Input 1 ===
 
 
 
* RV2 wiper, 0-5V
 
* Install jumpers on controls card to pull up/down lines to pots
 
 
 
=== A2 - Analog Input 2 ===
 
 
 
* RV3 wiper, 0-5V
 
* Install jumpers on controls card to pull up/down lines to pots
 
 
 
=== A3 - Analog Input 3 ===
 
 
 
* J1 input Jack, 0-5V if jack is plugged into J1
 
* RV4 wiper if no jack is plugged into J1
 
 
 
=== A4 - Analog Input 4 ===
 
 
 
* J2 input Jack, 0-5V if jack is plugged into J2
 
* RV5 wiper if no jack is plugged into J2
 
* Could be used for I2C SDA connection (no pot, no jack)
 
 
 
=== A5 - Analog Input 5 ===
 
 
 
* J3 input Jack, 0-5V if jack is plugged into J3
 
* RV6 wiper if no jack is plugged into J3
 
* Could be used for I2C SCL connection (no pot, no jack)
 
 
 
=== A6 - Analog Input 6 ===
 
 
 
* J4 Jack, 0-5V
 
* Could be either input or output
 
** Parts population option
 
 
 
=== A7 - Analog Input 7 ===
 
 
 
* J5 Jack, 0-5V
 
* Could be either input or output
 
** Parts population option
 
 
 
=== J7 - Jacks ===
 
 
 
* 2x8 header
 
** Female on controls card
 
* Rev 1 has J2, J6 connections reversed vs [[ER-PROTO-02]] card
 
 
 
[[file:ER-MOZZI-DB_J7.PNG]]
 
 
 
=== J8 - Pots ===
 
 
 
* 2x10 header
 
** Female on controls card
 
 
 
=== J10 - Digital 6-13 ===
 
 
 
* D9, D10 shared with MOZZI Digital
 
 
 
=== D9, D10 - High Def Audio Out ===
 
 
 
* J6 - Stereo 3.5mm jack (PJ-366ST)
 
* Same output on both stereo channel
 
  
 
=== J9 -  Eurorack Power ===
 
=== J9 -  Eurorack Power ===
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[[file:ER-MOZZI-DB_J9.PNG]]
 
[[file:ER-MOZZI-DB_J9.PNG]]
 
=== J10 - Digital I/O ===
 
 
[[file:ER-MOZZI-DB_J10.PNG]]
 
 
* Pinout
 
 
# D0/RX
 
# D1/TX
 
# D6
 
# D7
 
# D8
 
# D9
 
# D10
 
# D11
 
# D12
 
# D13
 
# +5V
 
# GND
 
  
 
== Software / Example Projects ==
 
== Software / Example Projects ==

Revision as of 13:32, 25 January 2023

ER-PROTO-02-MOZZI-DB P1080850-720PX.jpg

Features

  • Daughtercard to ER-PROTO-02 card
    • Uses Front Panel and Controls card
      • Controls card populated as required
        • 0-6 Jacks, 0-6 Pots
  • Arduino NANO
  • High Def Sound output
  • Up to 6 Pots connected to A/D inputs
  • Up to 4 input jacks connected to A/D inputs
  • Options
    • 0-4 Pots, 0-4 Input Jacks
    • 5 Pots, 0-3 Input Jacks
    • 6 Pots, 0-2 Input Jacks

Arduino Pins

  • The ER-PROTO-02 controls card has 6 pots (RV1-RV6) and 6 jacks (J1-J6)
  • The Arduino NANO has 8 Analog Inputs (0-7)
  • RV1-RV6 are brought into the card
  • 6 Jacks
    • J1-J5 Jacks can be used for analog inputs, digital inputs or digital outputs
    • J6 Jack is a dedicated output (J6) connected to Hi Def output Arduino pins D9, D10

J9 - Eurorack Power

  • Power filter

ER-MOZZI-DB J9.PNG

Software / Example Projects

HAGIWO MOZZI builds

ER-PROTO-02-MOZZI-DB P1080857-720pxV.jpg

  • HAGIWO builds
  • Pots
    • Install RV1-RV4 = 100K
    • Install series resistor R1-R3 1K
    • Install Pull-up/Pull-down jumpers
  • Jacks
  • J3-J5 = PJ398SM
  • J6 = PJ366ST

Additive VCO

HAGIWO ADDITIVE VCO.png

  • 3 pots (Fundamental Frequency, Harmonics Gain, Harmonic)
  • 3 CV input jacks (V/Oct, Gain, Harmonic)
  • 1 PWM output jack
    • Output swings 1V-4V
  • Additive VCO Code

Chord VCO

HAGIWO CHORD VCO.png

  • 3 pots (Root Frequency, Inversion, Chord/Wave)
  • 3 CV input jacks (V/Oct, Inversion, Chord/Wave)
  • 1 PWM output jack
    • Output swings 2.5V +/- 100mV
  • CHORD VCO Code

FM VCO

HAGIWO FM VCO.png

  • 3 pots (Carrier Frequency, Mod Freq, Mod Level)
  • 3 CV input jacks (V/Oct, Mod Freq, Mod Level)
  • 1 PWM output jack
    • Output swings 0-5V

Triple Mode VCO

  • FM, Additive, Chord modes
  • Started from Testbld Code base
    • Replaced mode select switch with RV4 mode select pot
      • RV4 is on Analog 3
      • Add RV4 = 100K to controls card
      • Add R4 = 1K to controls card
      • Add C2 = 0.1uF to controls card
      • Add R4 = 0 ohms jumper to daughtercard
  • PWM output
    • Output swings 2V-3V

HAGIWO Bezier Random CV Generator

HAGIWO BEZIER CV SCHEMATIC-720PX.png

Issues

Rev 1

  • Switch on jacks between RV and J not wired correctly
    • Fixed in Rev 2 schematic
    • Could cut pots and wire manually
    • More easily just don't populate jack or pots that are not needed
  • J2, J6 reversed on schematics (Ctrls and ER-MOZZI-DB cards)
  • Add jumper J6-T to R13 other side from J2-T)

Assembly Sheet

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