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wilba_mb_6582_parts_list [2010/09/05 08:26]
shuriken
wilba_mb_6582_parts_list [2018/10/20 17:12] (current)
latigid_on transistors T2-T9 are mandatory; optional comment removed
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 Here is the full parts list. Here is the full parts list.
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 ====== Base PCB ====== ====== Base PCB ======
  
 |**Designator**|**Description**|**Value**|**Notes**|**Image**| |**Designator**|**Description**|**Value**|**Notes**|**Image**|
 |B1|Bridge Rectifier|W04 400V 1.2 Amp|Optional:​ See Note 1| |B1|Bridge Rectifier|W04 400V 1.2 Amp|Optional:​ See Note 1|
-|C1|Electrolytic Capacitor (Radial)|2200µF,​ 25V|Optional:​ See Note 1 and 13|{{mb-6582:​2200uf.jpg?​50x50}}|+|C1|Electrolytic Capacitor (Radial)|2200µF, ​16V (or 25V)|Optional: See Note 1 and 13|{{mb-6582:​2200uf.jpg?​50x50}}|
 |C2|Monolithic Capacitor|330nF|Optional:​ See Note 1|{{mb-6582:​330nf.jpg?​50x50}}| |C2|Monolithic Capacitor|330nF|Optional:​ See Note 1|{{mb-6582:​330nf.jpg?​50x50}}|
-|C3|Electrolytic Capacitor (Radial)|2200µF, ​25V|Optional: See Note 1 and 13|{{mb-6582:​2200uf.jpg?​50x50}}|+|C3|Electrolytic Capacitor (Radial)|2200µF, ​16V|Optional: See Note 1 and 13|{{mb-6582:​2200uf.jpg?​50x50}}|
 |C4|Monolithic Capacitor|100nF|Optional:​ See Note 1|{{mb-6582:​100nf.jpg?​50x50}}| |C4|Monolithic Capacitor|100nF|Optional:​ See Note 1|{{mb-6582:​100nf.jpg?​50x50}}|
 |C11|Electrolytic Capacitor (Radial)|10µF|Optional:​ See Note 1|{{mb-6582:​10uf.jpg?​50x50}}| |C11|Electrolytic Capacitor (Radial)|10µF|Optional:​ See Note 1|{{mb-6582:​10uf.jpg?​50x50}}|
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 |S1|Double-Pole,​ Single-Throw Switch|-|Optional:​ See Notes 1, 6| |S1|Double-Pole,​ Single-Throw Switch|-|Optional:​ See Notes 1, 6|
 |T1|BC337|-|-| |T1|BC337|-|-|
-|T2|BC547|-|Optional: Current sinking for LED and switch matrix+|T2|BC547|-|-
-|T3|BC547|-|Optional: Current sinking for LED and switch matrix+|T3|BC547|-|-
-|T4|BC547|-|Optional: Current sinking for LED and switch matrix+|T4|BC547|-|-
-|T5|BC547|-|Optional: Current sinking for LED and switch matrix+|T5|BC547|-|-
-|T6|BC547|-|Optional: Current sinking for LED and switch matrix+|T6|BC547|-|-
-|T7|BC547|-|Optional: Current sinking for LED and switch matrix+|T7|BC547|-|-
-|T8|BC547|-|Optional: Current sinking for LED and switch matrix+|T8|BC547|-|-
-|T9|BC547|-|Optional: Current sinking for LED and switch matrix|+|T9|BC547|-|-|
 |U2|6N138 Optocoupler|-|-| |U2|6N138 Optocoupler|-|-|
 |U4|24LC512|-|-| |U4|24LC512|-|-|
Line 204: Line 198:
 |D1_CORE3|Diode|1N4148|-| |D1_CORE3|Diode|1N4148|-|
 |D1_CORE4|Diode|1N4148|-| |D1_CORE4|Diode|1N4148|-|
-|C1_CORE1|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}}| +|C1_CORE1|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}} or {{mb-6582:​33pf_cap_b_150.jpg?​50x50}}| 
-|C1_CORE2|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}}| +|C1_CORE2|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}} or {{mb-6582:​33pf_cap_b_150.jpg?​50x50}}| 
-|C1_CORE3|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}}| +|C1_CORE3|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}} or {{mb-6582:​33pf_cap_b_150.jpg?​50x50}}| 
-|C1_CORE4|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}}| +|C1_CORE4|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}} or {{mb-6582:​33pf_cap_b_150.jpg?​50x50}}| 
-|C2_CORE1|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}}| +|C2_CORE1|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}} or {{mb-6582:​33pf_cap_b_150.jpg?​50x50}}| 
-|C2_CORE2|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}}| +|C2_CORE2|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}} or {{mb-6582:​33pf_cap_b_150.jpg?​50x50}}| 
-|C2_CORE3|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}}| +|C2_CORE3|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}} or {{mb-6582:​33pf_cap_b_150.jpg?​50x50}}| 
-|C2_CORE4|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}}|+|C2_CORE4|Ceramic Capacitor|33pF|-|{{mb-6582:​33pf.jpg?​50x50}} or {{mb-6582:​33pf_cap_b_150.jpg?​50x50}}|
 |C3_CORE1|Monolithic Capacitor|100nF|-|{{mb-6582:​100nf.jpg?​50x50}}| |C3_CORE1|Monolithic Capacitor|100nF|-|{{mb-6582:​100nf.jpg?​50x50}}|
 |C3_CORE2|Monolithic Capacitor|100nF|-|{{mb-6582:​100nf.jpg?​50x50}}| |C3_CORE2|Monolithic Capacitor|100nF|-|{{mb-6582:​100nf.jpg?​50x50}}|
Line 305: Line 299:
 |T21_SID3|BC547|-|-| |T21_SID3|BC547|-|-|
 |T21_SID4|BC547|-|-|*marker |T21_SID4|BC547|-|-|*marker
-|C1_SID1|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C1_SID1|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C1_SID2|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C1_SID2|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C1_SID3|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C1_SID3|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C1_SID4|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C1_SID4|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C2_SID1|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C2_SID1|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C2_SID2|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C2_SID2|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C2_SID3|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C2_SID3|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C2_SID4|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C2_SID4|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C21_SID1|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C21_SID1|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C21_SID2|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C21_SID2|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C21_SID3|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C21_SID3|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C21_SID4|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C21_SID4|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C22_SID1|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C22_SID1|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C22_SID2|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C22_SID2|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C22_SID3|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}| +|C22_SID3|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}| 
-|C22_SID4|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}}|+|C22_SID4|Capacitor|470pF or 22nF|See Note 7|{{mb-6582:​470pF.jpg?​50x50}} or {{mb-6582:​22nF.jpg?​50x50}} or {{mb-6582:​22nf_cap_b_150.jpg?​50x50}}|
 |C3_SID1|Ceramic Capacitor|1nF|-|{{mb-6582:​1nF.jpg?​50x50}}| |C3_SID1|Ceramic Capacitor|1nF|-|{{mb-6582:​1nF.jpg?​50x50}}|
 |C3_SID2|Ceramic Capacitor|1nF|-|{{mb-6582:​1nF.jpg?​50x50}}| |C3_SID2|Ceramic Capacitor|1nF|-|{{mb-6582:​1nF.jpg?​50x50}}|
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 |U2_SID3|SID 6581/​6582/​8580|-|-| |U2_SID3|SID 6581/​6582/​8580|-|-|
 |U2_SID4|SID 6581/​6582/​8580|-|-| |U2_SID4|SID 6581/​6582/​8580|-|-|
- 
- 
 ====== Notes ====== ====== Notes ======
  
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   - JD1, JD2, JD3, JD4, JD5, JD6, JD7, JD8, JD9 are pads to connect to a control surface. If using the MB-6582 control surface PCB in a PT-10 case (or similar sized case), do not solder SIL headers to these pads, the connection to the control surface PCB is via ribbon cables soldered directly to the pads. Refer to MB-6582 Control Surface Construction Guide.   - JD1, JD2, JD3, JD4, JD5, JD6, JD7, JD8, JD9 are pads to connect to a control surface. If using the MB-6582 control surface PCB in a PT-10 case (or similar sized case), do not solder SIL headers to these pads, the connection to the control surface PCB is via ribbon cables soldered directly to the pads. Refer to MB-6582 Control Surface Construction Guide.
   - The switch S1 is the same switch as found in a Commodore 64. You can temporarily use any DPDT switch until a good supply of these switches is located. **The DPDT rocker switch from Mountain Switches which was previously suggested ([[http://​www.mouser.com/​catalog/​specsheets/​MS-100818.pdf]]) does not suit the rearpanel design.**   - The switch S1 is the same switch as found in a Commodore 64. You can temporarily use any DPDT switch until a good supply of these switches is located. **The DPDT rocker switch from Mountain Switches which was previously suggested ([[http://​www.mouser.com/​catalog/​specsheets/​MS-100818.pdf]]) does not suit the rearpanel design.**
-  - These capacitors on the SID control the filter cutoff frequency. For 6581, they should be 470pF. For 8580/6582, they should be 22nF. To allow for interchangeable capacitors (should you wish to swap between 6581 and 8580/6582), solder a strip of 6 machine pins into the pads for these capacitors. Alternately,​ cut up an IC socket. Even if you plan to only use one type of SID, not soldering the capacitors gives you the opportunity to tweak the capacitors, install better ones later, etc.+  - These capacitors on the SID control the filter cutoff frequency. For 6581, they should be 470pF. For 8580/6582, they should be 22nF. To allow for interchangeable capacitors (should you wish to swap between 6581 and 8580/6582), solder a strip of 6 machine pins (available from [[http://​uk.farnell.com/​jsp/​search/​productdetail.jsp?​CMP=i-ddd7-00001003&​sku=1023035|Farnell]],​ [[http://​www.mouser.com/​ProductDetail/​Harwin/​D01-9973242/?​qs=ecHgFjcWJS%252bVNM5C80XwDA%3d%3d|Mouser]] and [[https://​www.jameco.com/​webapp/​wcs/​stores/​servlet/​ProductDisplay?​langId=-1&​productId=78642&​catalogId=10001&​storeId=10001|Jameco]]) ​into the pads for these capacitors. Alternately,​ cut up an IC socket. Even if you plan to only use one type of SID, not soldering the capacitors gives you the opportunity to tweak the capacitors, install better ones later, etc.
   - If using PSU Option B, 3-pin SIL headers in these pads allow switching the voltage supply to the SID between +9v and +12v. Use a jumper (shunt). If using PSU Option A, bridge between middle pin and "​9V"​ pin with a resistor lead.   - If using PSU Option B, 3-pin SIL headers in these pads allow switching the voltage supply to the SID between +9v and +12v. Use a jumper (shunt). If using PSU Option A, bridge between middle pin and "​9V"​ pin with a resistor lead.
   - These are the SID's audio input and output headers, which can be used to connect feedback pots (like on the rear panel of MB-6582). If not using (or until you connect) feedback pots, use a jumper (shunt) between "​IN"​ and "​GND"​ pins. You can also use these headers to connect audio sockets for external audio input to the SID (but preferably sockets with switch so unused socket will ground the input).   - These are the SID's audio input and output headers, which can be used to connect feedback pots (like on the rear panel of MB-6582). If not using (or until you connect) feedback pots, use a jumper (shunt) between "​IN"​ and "​GND"​ pins. You can also use these headers to connect audio sockets for external audio input to the SID (but preferably sockets with switch so unused socket will ground the input).
Line 449: Line 441:
   - Audio sockets (jacks) are Neutrik NMJ6HFD2 [[http://​www.neutrik.com/​fl/​en/​audio/​210_301451/​NMJ6HFD2_detail.aspx]] or equivalent (check Neutrik'​s datasheet for comparison). Other parts (even from Neutrik) are similar enough to fit. Note that some brands of this kind of audio socket have the switch pins on the opposite side and will not work "as is" on the PCB and require bridging the switch pins from the pins normally in contact with the phono plug. Ideally the socket should mount flat against the PCB and only the threaded part extend past the PCB (i.e. so sockets can mount flush with rear panel holes).   - Audio sockets (jacks) are Neutrik NMJ6HFD2 [[http://​www.neutrik.com/​fl/​en/​audio/​210_301451/​NMJ6HFD2_detail.aspx]] or equivalent (check Neutrik'​s datasheet for comparison). Other parts (even from Neutrik) are similar enough to fit. Note that some brands of this kind of audio socket have the switch pins on the opposite side and will not work "as is" on the PCB and require bridging the switch pins from the pins normally in contact with the phono plug. Ideally the socket should mount flat against the PCB and only the threaded part extend past the PCB (i.e. so sockets can mount flush with rear panel holes).
   - These are 5 or 6 pin **common bus** resistor networks, in which one pin is "​common"​ and is connected to all the other pins via resistors. The dot indicates pin 1 (the common pin), which goes in the square pad (left-side) directly above/below the component identifier (eg. "​R31"​). Do not get a 6-pin resistor network which is three isolated resistors connected to three pairs of pins. The correct one is Mouser part 264-10K-RC. If buying elsewhere, I believe if given a choice between parts with an "​A"​ or "​B",​ the "​A"​ means "​common bus" and "​B"​ means "​isolated"​. (See here: http://​au.mouser.com/​catalog/​636/​619.pdf)   - These are 5 or 6 pin **common bus** resistor networks, in which one pin is "​common"​ and is connected to all the other pins via resistors. The dot indicates pin 1 (the common pin), which goes in the square pad (left-side) directly above/below the component identifier (eg. "​R31"​). Do not get a 6-pin resistor network which is three isolated resistors connected to three pairs of pins. The correct one is Mouser part 264-10K-RC. If buying elsewhere, I believe if given a choice between parts with an "​A"​ or "​B",​ the "​A"​ means "​common bus" and "​B"​ means "​isolated"​. (See here: http://​au.mouser.com/​catalog/​636/​619.pdf)
- +  - Make sure you get caps with a leg width(RM) of 5,0 and not the more common 7,5 RM ones. Those won't fit.
wilba_mb_6582_parts_list.1283675188.txt.gz · Last modified: 2010/09/05 08:26 by shuriken