BPM Programmer: Difference between revisions

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[[File:pd_bpm_bp-1400_mb2.jpg|frameless]]
[[File:pd_bpm_bp-1400_mb2.jpg|frameless]]


Mezzanine board:
Technology adapter:


[[File:pd_bpm_bp-1400_mez_top.jpg|frameless]]
[[File:pd_bpm_bp-1400_mez_top.jpg|frameless]]
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==Parallel to USB upgrade==
==Parallel to USB upgrade==


Main page: [[bpm_WWAVUSBEPP]]
Main page: [[BPM_WWAVUSBEPP]]
 


==USB hub==
==USB hub==

Latest revision as of 15:06, 30 January 2024


BP series

Vendor Model Year Motherboard

silkscreen

Motherboard

CPU

Motherboard

RAM

Motherboard

FPGA sticker

Card

Model

Tech adapter

silkscreen

Power supply Accessory Last BPWin Note
Actel SS2 2001 CPCB12A Rev. C Intel FC80486DX4100 Populated U5

W42MX24A BP MICROSYSTEMS 09/20/02

CPCBPD8B Rev B

2001

CPCBVLTA REV. B

2000

Button mcmaster
Actel SS3 2008-05-12
WWAV12F

REV.F M0309


ASSY WWAV12F

Intel UG80486DX4100 SO DDR

Populated


CENTON

512 MB

CPCBPD8B Rev B

2001

SWG

CEM-??


CEL-22-LF000000006246

REV-A1

BPM 1148
BPM 1200 1992 BP-1200 Rev C AMD N80L286-16/S N/A CPCBPD8 Rev. D INTEGRATED POWER DESIGN
BPM 1400/84
BPM 1400

(1400/240)

CPCB11 Rev. G 80C286 CPCBTA240V REV. D 29203118-C2

REV-C C2

BPM 1410/84 2005 CPCBD03223 Rev. F

2005

Intel 80486DX4100 SO DDR

Unpopulated

N/A CPCBPD8B Rev B

2001

2002 BP MICROSYSTEMS Model?

Looks like SS3

CEL-22-000000001560

E145540, CS155-F3

HP-OK, REV A

mcmaster
BPM 1410

(1410/240)

BPM 1600 CPCB12A Rev. C 2001 Intel FC80486DX4100 72-pin SIMM

Unpopulated

(handwritten)

MUS 28781

CPCBPD8B Rev A 1999 CPCBVLVTA REV. B 2000 29203118-C2

REV-C C2

5.33.0
BPM 1610
BPM 1700
BPM 1710
BPM 2000
BPM 2100
BPM 2200x4/240 1998 CPCB11 Rev. F

1998

Harris CS80C286-16 CPCBPD8A Rev D

1997

Top

CPCBTA240V REV. D

1996


Bottom

CPCBTA240V Rev. D

1996

29203118-C2

REV-C C2

4.73.0 mcmaster

REV vs Rev is inconsistent even on the same PCB...

BPM 2500
BPM 2510
BPM 2600
BPM 2600M
BPM 2610
BPM 2700
BPM 2700M
BPM 2710
BPM 2800F

General notes:

  • The following are the same basic hardware
    • BP-1400, BP-2200
    • BP-1410, SS3
    • BP-1600, SS2
  • Power supplies
    • Three generations


 (11:36:56 PM) Lord_Nightmare: the main processor [of the bp1200] is an 80286-16, with a 32mhz xtal
 (11:37:07 PM) Lord_Nightmare: [the board labeled] std48, it would [I assume] normally have [std48] printed on it nicely
 (11:37:22 PM) Lord_Nightmare: this one was a refurbished unit and i guess they used an unprinted metal case for that pcb
 (11:37:37 PM) Lord_Nightmare: std48 is the 'relay pcb' 
 (11:37:38 PM) digshadow: but whats the point
 (11:37:52 PM) Lord_Nightmare: i think it controls which pins are powered with what [rail] but am not sure
 (11:38:06 PM) digshadow: gotcha
 (11:38:07 PM) Lord_Nightmare: the bp1200 it is a 'separate' pcb on top of the unit
 (11:38:13 PM) digshadow: but its basically part of the unit right
 (11:40:54 PM) Lord_Nightmare: the bp1600 has the 'relay board' integrated as a board which sits on top of the rest of the inside of the unit inside the case
 (11:41:16 PM) Lord_Nightmare: i think the 1400 does as well
 (11:41:33 PM) Lord_Nightmare: while on the 1200 it sat on top of the unit
 (11:46:35 PM) Lord_Nightmare: the most basic bp unit was the bp-1148 "device programmer"
 (11:46:55 PM) Lord_Nightmare: note the case is identical to the 1200, and the only difference [in appearance] is 'universal' is blacked out on the wording
 (11:47:11 PM) Lord_Nightmare: http://vertassets.blob.core.windows.net/image/107fdcf5/107fdcf5-2dad-11d4-8c3d-009027de0829/bp1148.jpg
 (11:47:46 PM) Lord_Nightmare: that picture is a mockup, the std48 'layer' is missing
 (11:48:11 PM) Lord_Nightmare: http://thumbs.ebaystatic.com/d/l225/m/m1qMyAgqacqzlOo4KbeZLcw.jpg shows an actual 1148 

ECO: WWAV20-4

  • http://www3.bpmmicro.com/web/helpandsupport.nsf/69f301ee4e15195486256fcf0062c2eb/66634b97cb53c22e8625703e0062b99a!OpenDocument
  • Effect 1: ECO: WWAV20-4 Effect 2: CPCB11 Rev A-F - TA-84 will occasionally fail relay test


http://www3.bpmmicro.com/web/helpandsupport.nsf/WebKeys/BPM-7Q2R96!OpenDocument

BP-1148, BP-1200, BP-2000, BP-2100, BP-2500, BP-2510, BP-2600M Final Software Version
Legacy Programmer Last Software Version Reference
Per the following document, the final BPWin version for the legacy programmers listed above is BPWin 4.73.

http://www3.bpmicro.com/Web/helpandsupport.nsf/WebKeys/BPM-6AHS6M?opendocument&Cat=FAQ

You can download BPWin 4.73 from our software download page by clicking the "BPM Legacy Software Download" link in the upper-left corner of the page.

BP-1200


PC interface: parallel port

Chip interface: 2 plug SM

http://atariage.com/forums/topic/142884-bp-microsystems-eprom-programmer-a-cry-for-help/

  • IF you get a TA-84 pin driver module (and a SM48D 48-pin DIP module, but NOT the one that comes with the BP-1148) it will convert your BP-1148 to a BP1200/84.

BP-1400

PC interface: parallel port

Chip interface: 3 plug SM

BP-1400/84: [1]


BP-1400/240: [2]


EOL notice

http://www3.bpmmicro.com/web/helpandsupport.nsf/WebKeys/BPM-7AUPV7!OpenDocument&Cat=Issue&Click=

End of Life for 1400 and 2200 model programmers

Summary BPM announces the planned end of support for the 1400 and 2200 model programmers on December 31, 2008. Introduced in 1996 and discontinued in 2005, the 2200 and 1400 were the first in the industry to enable fine control of programming waveforms for the highest quality programming with the widest device support capabilities. Limitations of the original programmers hardware combined with new software compatibility and component obsolescence forces this end of support announcement.

Details End of support means that BPWin software released in 2009 will not support the 1400 and 2200 model numbers. These models can continue to function with existing BPWin software released prior to 2009, but will not be eligible for additional algorithms or updates to existing algorithms. Hardware contracts will also not be available for these programmers. Also, repairs and calibration of these programmers are no longer possible.


Motherboard

Technology adapter:


Power supply


BP-1410

BPM BP-1410

External:

Power supply:


PC interface: USB

Chip interface: 3 plug SM

BP-1410/84 datasheet: [3]

BP-1410/240 datasheet: [4]

Motherboard

Motherboard USB connector:


BP-1600

External:


PC interface: parallel port

Chip interface: 3 plug SM

BP-1600 datasheet: [5]

 1400 has a 286 and the 1410 a 486
 1600 supports 1.5V parts
 5000 more devices (probably a lot more by now)

Motherboard:

CPCD12A Rev. C

CPU

 intel
 Intel DX4
 iCOMP TM index=435
 PC80486DX4100
 L124EA01
 &EW 3VOLT SL2M9
 INTEL (M)(C) '89 '94

Connectors are numbered with 1 at the side of the top or left of the PCB, oriented such that writing is right side up (ie side with blue trim pot)

J10 (Fan, N/C)

# V Note
1 N/C?
2 16.5
3 0
4 N/C?

J11 (Term. 1, N/C)

# V Note
1 0.0
2 1.1
3 0.25
4 5.1


J12 (Term. 2, N/C)

Was this supposed to be identical to above? Broken?

# V Note
1 0.0
2 0.0
3 0.0
4 0.8

Voltage header

Label V Note
+5V 5.1
+3.3V 3.3
GND 0.0
-3.5V -3.5
-5V -5.0
GND 0.0
+2.5V 2.5
PGD 4.1
VTH 1.6


Power supply

J4 (12V fans...wtf?)

# Color V Note
1 Red 35.4
2 Red 16.5
3 Black 0.0
4 Black 5.3

J5 (to MB J4 or J20)

# Color V Note
1 Purple 35.4
2 Orange 16.5
3 Black 0.0
4 Red 5.3

J6 (to MB J4 or J20)

# Color V Note
1 Purple 35.4
2 Orange 16.5
3 Black 0.0
4 Red 5.3


BP-2200

"Concurrent Programming System"

PC interface: parallel port

Chip interface: 4X 3 plug SM

BP-2200 datasheet: [6]


Parallel to USB upgrade

Main page: BPM_WWAVUSBEPP

USB hub

Used on gang programmers

EP series

EP-1

PC interface: parallel port

Chip interface: DIP

EP-1132

PC interface: parallel port

Chip interface: DIP-32

EP-1140



PC interface: parallel port
Chip interface: DIP-40
CPU: Intel 8088
Memory: 8KB/32KB SRAM
Firmware: 8KB/16KB/32KB EPROM






Jumpers:

  • EPROM Type
    • Left = ON for 27256, OFF for 2764/27128
    • Middle = ON for 27128/27256, OFF for 2764
  • SRAM Type
    • Right = ON for 62256*, OFF for 6264

ON = Up/Towards xtal
OFF = Down/Away from xtal
(* Note: Even if the firmware can deal with more RAM, BPDos/BPWin might expect it to be hardcoded and crash the programmer if not set right.)

Powersupply:

  • Unregulated
    • -13.4V/+11.1V
    • -44.8V/+38.8V
  • Linear
    • +5V (TTL, CPU, DAC)
    • +6V (CMOS)
    • -3V/+29V (Op-Amps)
  • Variable
    • Overcurrent-protection
    • 13 DACs (DAC0830LCN)
    • 4 quad op-amps (TL084CN)
  • Routing
    • 12 transistors for VCC/VPP (NSDU01)
    • 11 transistors which has something to do with VPP-pins (PN2222)
    • 8 transistors for GND (IRF-Z15)

Pinout:

  • 20 normal IO pins
  • 1 pin with VCC feature
  • 11 pins with VPP feature
  • 8 pins with GND feature
  • Out of all the pins, 4 have some unknown additional feature
Pin features:
______	   _____   _____     ______
_	VPP	|_|	VCC       _	
_	Pin*		Pin       _	
_	Pin*		VPP       _	
_	GND		VPP       _
___	Pin		VPP     ___
_	Pin		VPP       _	
_	VPP		VPP       _
_	Pin		Pin       _	
_	Pin		VPP       _
______	Pin		VPP  ______
_	GND		GND       _
_	GND		Pin       _
_	Pin		Pin       _
_	GND		Pin       _
___	Pin		VPP     ___
_	GND		VPP       _
_	Pin		Pin       _
_	GND*		Pin       _
_	Pin*		Pin       _
______	GND_____________Pin  ______

* Unknown additional feature

PLD series

PLD-1128



PC interface: parallel port
Chip interface: DIP-28
CPU: Zilog Z80
Memory: 2KB/8KB SRAM
Firmware: 8KB/16KB/32KB EPROM






Jumpers:

  • EPROM Type
    • W1 = ON for 2764/27128, OFF for 27256
    • W2 = ON for 2764 , OFF for 27128/27256
  • SRAM Type
    • W3 = ON for 6116, OFF for 6264*
  • Unknown
    • Jumper up by the parallel port = ??

ON = Up/Towards CPU
OFF = Down/Away from CPU
(* Note: V1.05d firmware only supports 6116-type SRAM)

Powersupply:

  • Unregulated
    • -10.9V/+10.3V
    • +52.5V
  • Regulated
    • +5V (Digital)
    • -5.8V/+11.3V (DAC)
    • -5.8V/+30V (Op-Amp)
    • Possibly more

CP series

CP-1128

PC interface: parallel port

Chip interface: DIP-28

Silicon Sculptor

Actel programmers made by BPM.

As these cost less than the "real" BPM programmers, presumably can't be used with normal BPM software and/or work with other adapters

Silicon Sculptor 1

Has 2 headers (left/right) that adaptors plug into

Interface: parallel port

There is version with 1 connector and a version with 6 connectors

1X markings

 Silicon Sculptor
 FAIL
 ACTIVE
 PASS
 START
 ACTEL DEVICE PROGRAMMER
 BP MICROSYSTEMS

Silicon Sculptor 2

http://www.actel.com/kb/article.aspx?id=SL1039

  • WWAV20 motherboard with pin driver boards (PD8As)
  • 286 processor
  • 2MB onboard RAM
  • an additional 4MB SIMM to support concurrency


Markings:

 Silicon Sculptor II
 Actel
 FAIL
 ACTIVE
 PASS
 ACTEL DEVICE PROGRAMMER
 BP MICROSYSTEMS

mcmaster notes

2018-09-12

  • Open SS2
  • Think this was the eBay unit?
  • PCB is identical to one used in BP-1600
  • Both have blue bodge wire
  • SS2 has RAM installed


Actel Silicon Sculptor 3

Above: DO NOT TOUCH!

This appears to be a crippled BP-1410 (however, it has the front-panel button and the 512MB of RAM present in the BP-1710). No analysis has been done to figure out where the devices differ (firmware, FPGA, host, etc)

Product page: [7]

I love how they switched from roman numerals to Arabic numbers. Maybe they'll call the next one Silicon Sculptor D…

Has 3 headers (left/right/top) that adaptors plug into

Interface: USB

Markings:

 Silicon Sculptor 3
 Actel
 FAIL
 ACTIVE
 PASS
 START (button)
 ACTEL DEVICE PROGRAMMER
 BP MICROSYSTEMS


External


Motherboard

Main assembly:

Driver board:


Power supply