Archive:CALMU3

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[http://calmu.co.uk/resources/9600-3002-2+C+CALMU3+Manual+A4.pdf Calmu3] (possibly Calmu3+) from [http://www.securetogether.com/ Polymeters Response International].  "The first microprocessor-based meter", using "FFT, rather than 'brute-force' DSP" [http://www.securetogether.com/Products/Our-Technology/CALMU.aspx]
'''Note: This was the electricity meter in our old space at Unit 24, 37 Cremer Street. It is preserved here for historical reasons as this page is probably the most comprehensive documentation of this meter on the internet.'''


I think I read somewhere that Calmu3 (minus the +) lacks CoP5 approval, but the picture in the manual shows the same as ours.
[[File:Electricity_meter.jpg|right|thumb|350px|'''MULTIPLY ALL READINGS BY ONE''']]
[http://calmu.co.uk/resources/9600-3002-2+C+CALMU3+Manual+A4.pdf Calmu3+] from [http://www.securetogether.com/ Polymeters Response International].  "The first microprocessor-based meter", which uses "FFT, rather than 'brute-force' DSP" [http://www.securetogether.com/Products/Our-Technology/CALMU.aspx]


It may need calibration periodically, but that's probably up to the supplier.
It may need calibration periodically, but that's probably up to the supplier.
Line 7: Line 8:
== Details ==
== Details ==


* Serial no: P99A01869
* Part no: C3DBD0BC0SJ (3 phase direct, class 1 accuracy, lithium backup, C?)
* Part no: C3DBD0BC0SJ (3 phase direct, class 1 accuracy, lithium backup, C?)


== Interfaces ==
== Interfaces ==


* Infrared port ('''Not''' PACT - a proprietary predecessor)
* Infrared '''PACT''' port (this is a standard - [http://www.abacuselectrics.com/pacta12a.htm possible adapter])
:: are you sure?  the dox says "PACT Opto port", and PACT ''is'' proprietary
* Serial port ("for PC, modem or [http://www.securetogether.com/PACTLAN.aspx PACTLAN]").  This is apparently not PACT.
* Serial port ("for PC, modem or [http://www.securetogether.com/PACTLAN.aspx PACTLAN]")
<s>


== Software with support ==
== Software with support ==
* Principal (DOS) or [ftp://81.142.225.250/EASEii/ Ease II] (can't get this to run on XP due to .vbx; probably needs 2000; uses stopcopy protection) from PRI
* '''Principal''' (DOS) or [ftp://81.142.225.250/EASEii/ Ease II] (can't get this to run on XP due to .vbx; probably needs 2000; uses stopcopy protection) from PRI
* [http://www.herseymeters.com/prod_amr_mvrs.html mv-rs], and possibly other Itron stuff
* [http://www.herseymeters.com/prod_amr_mvrs.html mv-rs], and possibly other Itron stuff
* Ziphany http://www.ziphany.com/Files/Supported_Meters.pdf
* [http://www.ziphany.com/Files/Supported_Meters.pdf Ziphany]
</s>
 
== Source code ==
https://github.com/londonhackspace/Powered


== Resources ==
== Resources ==
Line 40: Line 40:
Lowercase commands are always inverted and smaller than uppercase, suggesting they're from another perspective.  Obviously, units still increase, so 'u' probably just calls 'U', explaining its strange behaviour.
Lowercase commands are always inverted and smaller than uppercase, suggesting they're from another perspective.  Obviously, units still increase, so 'u' probably just calls 'U', explaining its strange behaviour.


Sampling seems to be live, so sampling more frequently will be more accurate.
Sampling seems to be live, so sampling more frequently will be more accurate.  Due to the baud rate, a sample takes 120-240ms.


=== Commands ===
=== Commands ===
Line 53: Line 53:
|-
|-
! R
! R
| (Real?) time. '''Where is date?'''
| (Real?) time.
| <code>"R=15:00:40\r"</code>
| <code>"R=15:00:40\r"</code>
|-
|-
Line 61: Line 61:
|-
|-
! s
! s
| ? related to 'B'?
| Meter information
| <code>"s=", dword 0xa605019e, dword 0, "\r"</code>
| <code>"s=", dword 0xa605019e, dword 0, "\r"</code>
|-
|-
Line 76: Line 76:
|-
|-
! I[123]
! I[123]
| Current
| Active Current (A)
|
|
<code>
<code>
Line 85: Line 85:
|-
|-
! i[123]
! i[123]
| Current?
| Reactive Current (A)
|
|
<code>
<code>
Line 93: Line 93:
</code>
</code>
|-
|-
! K[123AVW]
! L[123]
| Instananeous power
| "Apparent" current (A)
|
<code>
* "L1+9.0200"
* "L2+0.0100"
* "L3+0.0200"
</code>
|-
! K[123A]
| Apparent power (kVA)
|
|
<code>
<code>
Line 101: Line 110:
* "K3+0.0100"
* "K3+0.0100"
* "KA+2.0600"
* "KA+2.0600"
* "KV-1.3300"
</code>
|-
! KW
| Total Active power fundamental frequency
|
<code>
* "KW+1.6300"
* "KW+1.6300"
</code>
</code>
|-
|-
! L[123]
! KV
| Load?
| Total Reactive power
|
|
<code>
<code>
* "L1+9.0200"
* "KV-1.3300"
* "L2+0.0100"
* "L3+0.0200"
</code>
</code>
|-
|-
! P[123]
! P[123]
| ?
| Real power (kW)
|
|
<code>
<code>
Line 124: Line 136:
|-
|-
! p[123]
! p[123]
| ?
| Reactive Power (kVAR)
|
|
<code>
<code>
Line 134: Line 146:
! Q[123A]
! Q[123A]
| Power factor
| Power factor
Not sure what the +/- means
|
|
<code>
<code>
Line 165: Line 179:
|-
|-
! V[123]
! V[123]
| Voltage  
| Voltage (V)
|
|
<code>
<code>
Line 179: Line 193:
</code>
</code>
|-
|-
!  
! \x83
| ?
| Please don't call these, as they're probably for programming
<code>
</code>
|-
! \x84
| ?
|
<code>
</code>
|-
! \xfa
| ?
|
<code>
</code>
|-
! \xfb
| ?
|
<code>
</code>
|-
! \xfc
| ?
|
<code>
</code>
|-
! \xfd
| ?
|
<code>
</code>
|-
! \xfe
| ?
| ?
|
|
Line 187: Line 237:
|}
|}


 
== Notes ==
*V is clearly voltage.
*I is clearly current.
*Q is {0, 1}, so clearly power factor.
*P is I * V, so must be true power.
*K is P / Q, so must be apparent power.
*L is I*Q, so "apparent" current.


== Memory ==
== Memory ==


This is probably RAM.
This is probably RAM.  [http://en.wikipedia.org/wiki/Freescale_68HC11 This MCU] is 768 bytes of RAM.


  X00=A98991
  X00=A98991 # increments by ~ 0xb800-0xc800 every second (~50kHz MCU clock?)
  X01=00008E
  X01=00008E # floats around here - drift/correction of X02?
  X02=00C3E9
  X02=00C3E9 # floats around here - last increase of X00?
  X03=03A590
  X03=03A590 #
  X04=00000A
  X04=00000A # static
  X05=000000
  X05=000000 # static
  X06=FFFD1E
  X06=FFFD1E
  X07=0000FE
  X07=0000FE # static
  X08=0007C8
  X08=0007C8 # floats around here
  X09=0005CD
  X09=0005CD # floats around here
  X0A=FFFAD5
  X0A=FFFAD5 # floats around here
  X0B=00000D
  X0B=00000D # sometimes jumpy (0x03-0x2e) - adjustment?
  X0C=000000
  X0C=000000 # static
  X0D=FFFFFF
  X0D=FFFFFF # static
  X0E=00007F
  X0E=00007F # static
  X0F=000000
  X0F=000000 # sometimes 0xffffff
  X10=000000
  X10=000000 # static
  X11=00000A
  X11=00000A # static
  X12=00008F
  X12=00008F # floats by +- 0x20/0x40 around here
  X13=0000FF
  X13=0000FF # static
  X14=FFFFFF
  X14=FFFFFF # static
  X15=FFFFFF
  X15=FFFFFF # static
  X16=02EA22
  X16=02EA22 # very slow increase
  X17=FFFFFF
  X17=FFFFFF # static
  X18=000000
  X18=000000 # static
  X19=000000
  X19=000000 # static
  X1A=FBA66C
  X1A=FBA66C # slow increase ~1/sec - timer
  X1B=0000FF
  X1B=0000FF # static
  X1C=000003
  X1C=000003 # static
  X1D=000000
  X1D=000000 # static
  X1E=000000
  X1E=000000 # static
  X1F=73FAEE
  X1F=73FAEE # static
  X20=FFFFFF
  X20=FFFFFF # static
  X21=FFFFFF
  X21=FFFFFF # static
  X22=FFFFFF
  X22=FFFFFF # static
  X23=FFFFFF
  X23=FFFFFF # static
  X24=007F58
  X24=007F58 # also 0x53
  X25=000000
  X25=000000 # also +-0x20 occasionally
  X26=FF9900
  X26=FF9900 # also 0x0040FF, 0x000AE0, 0x001320
  X27=00400B
  X27=00400B # also 0x001400, 0x001320
  X28=687687
  X28=687687 # also 0x001400, 0xC6C5FA, 0x001320
  X29=FFFD13
  X29=FFFD13 # floats around here
  X2A=0003E8
  X2A=0003E8 # static (1000)
  X2B=0003E8
  X2B=0003E8 # static (1000)
  X2C=03A4A8
  X2C=03A4A8 # slow increase
  X2D=03B0DC
  X2D=03B0DC # slow increase
  X2E=03BB34
  X2E=03BB34 # slow increase
  X2F=0007C3
  X2F=0007C3
  X30=FFFAC7
  X30=FFFAC7
  X31=0005AB
  X31=0005AB # very slow increase
  X32=00033A
  X32=00033A # very slow increase
  X33=000003
  X33=000003 # also 2
  X34=000005
  X34=000005 # also 2
  X35=FFFDDA
  X35=FFFDDA
  X36=FFFFFF
  X36=FFFFFF
Line 252: Line 308:
  X39=FFFFFD
  X39=FFFFFD
  X3A=000001
  X3A=000001
  X3B=26E6F4
  X3B=26E6F4 # This is the value returned by command UW
  X3C=000001
  X3C=000001 # This is (probably) the value returned by command Uw
  X3D=05551E
  X3D=05551E # This is the value returned by command UV
  X3E=02B641
  X3E=02B641 # This is the value returned by command Uv
  X3F=282A7A
  X3F=282A7A # This is the value returned by command UA
  X40=00000D
  X40=00000D # static
  X41=00100D
  X41=00100D # static
  X42=53100D
  X42=53100D # static
  X43=58100D
  X43=58100D # static
  X44=FFFFFF
  X44=FFFFFF
  X45=FF00FF
  X45=FF00FF # static
  X46=0400FF
  X46=0400FF # static
  X47=0400FF
  X47=0400FF # static
  X48=03A4FC
  X48=03A4FC
  X49=000000
  X49=000000 # static
  X4A=FFFFFF
  X4A=FFFFFF # static
  X4B=050013
  X4B=050013 # static
  X4C=000000
  X4C=000000 # static
  X4D=050013
  X4D=050013 # static
  X4E=000000
  X4E=000000 # static
  X4F=000000
  X4F=000000 # static
  X50=FFFFFF
  X50=FFFFFF # static
  X51=FFFFFF
  X51=FFFFFF # static
  X52=FFFFFF
  X52=FFFFFF # static
  X53=FFFFFF
  X53=FFFFFF # static
  X54=000000
  X54=000000 # static
  X55=000000
  X55=000000 # also 0xffffff
  X56=FFFFFF
  X56=FFFFFF # static
  X57=FFFFFF
  X57=FFFFFF # static
  X58=000000
  X58=000000 # static
  X59=FFFFFF
  X59=FFFFFF # static
  X5A=000000
  X5A=000000 # static
  X5B=000000
  X5B=000000 # static
  X5C=000000
  X5C=000000 # static
  X5D=000000
  X5D=000000 # static
  X5E=000000
  X5E=000000 # static
  X5F=000000
  X5F=000000 # static
  X60=000000
  X60=000000 # static
  X61=000000
  X61=000000 # static
  X62=000000
  X62=000000 # static
  X63=000000
  X63=000000 # static
  X64=000000
  X64=000000 # static
  X65=FFFFFF
  X65=FFFFFF # static
  X66=000000
  X66=000000 # static
  X67=000000
  X67=000000 # static
  X68=FFFFFF
  X68=FFFFFF # static
  X69=000000
  X69=000000 # static
  X6A=FFFFFF
  X6A=FFFFFF # static
  X6B=FFFFFF
  X6B=FFFFFF # static
  X6C=FFFFFF
  X6C=FFFFFF # static
  X6D=FFFFFF
  X6D=FFFFFF # static
  X6E=000000
  X6E=000000 # static
  X6F=FFFFFF
  X6F=FFFFFF # static
  X70=000000
  X70=000000 # static
  X71=000000
  X71=000000 # static
  X72=000000
  X72=000000 # static
  X73=000000
  X73=000000 # static
  X74=000000
  X74=000000 # static
  X75=000000
  X75=000000 # static
  X76=000000
  X76=000000 # static
  X77=FFFFFF
  X77=FFFFFF # static
  X78=000003
  X78=000003 # static
  X79=000076
  X79=000076 # static
  X7A=000015
  X7A=000015 # static
  X7B=000000
  X7B=000000 # static
  X7C=000019
  X7C=000019 # static
  X7D=00216B
  X7D=00216B # static
  X7E=00000C
  X7E=00000C # static
  X7F=00001D
  X7F=00001D # static
  X80=000058
  X80=000058 # static
  X81=007F44
  X81=007F44 # static
  X82=000001
  X82=000001 # static
  X83=000000
  X83=000000 # static
  X84=000000
  X84=000000 # static
  X85=000000
  X85=000000 # static
  X86=000000
  X86=000000 # static
  X87=000000
  X87=000000 # static
  X88=000000
  X88=000000 # static
  X89=000000
  X89=000000 # static
  X8A=000000
  X8A=000000 # static
  X8B=000000
  X8B=000000 # static
  X8C=000000
  X8C=000000 # static
  X8D=000000
  X8D=000000 # static
  X8E=000010
  X8E=000010
  X8F=001A6F
  X8F=001A6F
  X90=000000
  X90=000000 # static
  X91=000011
  X91=000011 # static
  X92=0006F0
  X92=0006F0 # static
  X93=0006F0
  X93=0006F0 # static
  X94=00000C
  X94=00000C # static
  X95=000006
  X95=000006 # static
  X96=000002
  X96=000002 # static
  X97=FFFFFF
  X97=FFFFFF # static
  X98=000000
  X98=000000 # also 0xffffff
  X99=FFFFFF
  X99=FFFFFF # static
  X9A=FFFFFF
  X9A=FFFFFF # static
  X9B=000000
  X9B=000000 # static
  X9C=000000
  X9C=000000 # static
  X9D=000000
  X9D=000000 # static
  X9E=000000
  X9E=000000 # static
  X9F=000000
  X9F=000000 # static
  XA0=000003
  XA0=000003 # static
  XA1=000000
  XA1=000000 # static
  XA2=FFFFC0
  XA2=FFFFC0 # static
  XA3=FFFF84
  XA3=FFFF84 # static
  XA4=000001
  XA4=000001 # static
  XA5=000001
  XA5=000001 # static
  XA6=000000
  XA6=000000 # static
  XA7=000001
  XA7=000001 # static
  XA8=000002
  XA8=000002 # static
  XA9=000000
  XA9=000000 # static
  XAA=000001
  XAA=000001 # static
  XAB=000001
  XAB=000001 # static
  XAC=007F3C
  XAC=007F3C # static
  XAD=007F4E
  XAD=007F4E # static
  XAE=007F58
  XAE=007F58 # static
  XAF=0000FF
  XAF=0000FF # static
  XB0=0003E8
  XB0=0003E8 # static (1000)
  XB1=0000FF
  XB1=0000FF # static
  XB2=000000
  XB2=000000 # static
  XB3=00016E
  XB3=00016E # static
  XB4=0005B5
  XB4=0005B5 # static
  XB5=000708
  XB5=000708 # static
  XB6=0003DF
  XB6=0003DF # static
  XB7=0003E5
  XB7=0003E5 # static
  XB8=0003F8
  XB8=0003F8 # static
  XB9=001F40
  XB9=001F40 # static (8000)
  XBA=00015E
  XBA=00015E # static
  XBB=000000
  XBB=000000 # static
  XBC=000A87
  XBC=000A87 # static
  XBD=000B9B
  XBD=000B9B # static
  XBE=001D4C
  XBE=001D4C # static (7500)
  XBF=000000
  XBF=000000 # static
  XC0=004100
  XC0=004100 # static
  XC1=0078E0
  XC1=0078E0
  XC2=000095
  XC2=000095
  XC3=000000
  XC3=000000 # static
  XC4=000056
  XC4=000056 # floats around here
  XC5=000054
  XC5=000054 # floats around here
  XC6=00012F
  XC6=00012F
  XC7=00012A
  XC7=00012A # static
  XC8=00016D
  XC8=00016D # static
  XC9=001080
  XC9=001080 # static
  XCA=007F00
  XCA=007F00 # static
  XCB=FFFD00
  XCB=FFFD00 # static
  XCC=007E00
  XCC=007E00 # static
  XCD=00110C
  XCD=00110C # static
  XCE=003348
  XCE=003348 # static
  XCF=002730
  XCF=002730 # static
  XD0=000384
  XD0=000384 # static
  XD1=00293B
  XD1=00293B # static
  XD2=0029EB
  XD2=0029EB # static
  XD3=0001FF
  XD3=0001FF # static
  XD4=003262
  XD4=003262 # static
  XD5=00FFFF
  XD5=00FFFF # static
  XD6=0332D4
  XD6=0332D4 # static
  XD7=015180
  XD7=015180 # static
  XD8=001F36
  XD8=001F36 # static
  XD9=014244
  XD9=014244 # static
  XDA=000001
  XDA=000001 # static
  XDB=000001
  XDB=000001 # static
  XDC=000000
  XDC=000000 # static
  XDD=000000
  XDD=000000 # static
  XDE=000000
  XDE=000000 # static
  XDF=989680
  XDF=989680 # static
  XE0=FFFFFF
  XE0=FFFFFF # static
  XE1=F3A27C
  XE1=F3A27C # static
  XE2=F3A27C
  XE2=F3A27C # static
  XE3=000AFA
  XE3=000AFA # static
  XE4=000000
  XE4=000000 # static
  XE5=000AF8
  XE5=000AF8 # static
  XE6=000000
  XE6=000000 # static
  XE7=73FAEE
  XE7=73FAEE # static
  XE8=CCBBAA
  XE8=CCBBAA # static
  XE9=050002
  XE9=050002 # static
  XEA=050013
  XEA=050013 # static
  XEB=050013
  XEB=050013 # static
  XEC=050013
  XEC=050013 # static
  XED=050013
  XED=050013 # static
  XEE=050013
  XEE=050013 # static
  XEF=050013
  XEF=050013 # static
  XF0=050013
  XF0=050013 # static
  XF1=050013
  XF1=050013 # static
  XF2=050013
  XF2=050013 # static
  XF3=050013
  XF3=050013 # static
  XF4=050013
  XF4=050013 # static
  XF5=050013
  XF5=050013 # static
  XF6=050013
  XF6=050013 # static
  XF7=050013
  XF7=050013 # static
  XF8=050013
  XF8=050013 # static
  XF9=050013
  XF9=050013 # static
  XFA=050013
  XFA=050013 # static
  XFB=050013
  XFB=050013 # static
  XFC=050013
  XFC=050013 # static
  XFD=050013
  XFD=050013 # static
  XFE=050013
  XFE=050013 # static
  XFF=050013
  XFF=050013 # static

Latest revision as of 15:44, 3 June 2013

Note: This was the electricity meter in our old space at Unit 24, 37 Cremer Street. It is preserved here for historical reasons as this page is probably the most comprehensive documentation of this meter on the internet.

MULTIPLY ALL READINGS BY ONE

Calmu3+ from Polymeters Response International. "The first microprocessor-based meter", which uses "FFT, rather than 'brute-force' DSP" [1]

It may need calibration periodically, but that's probably up to the supplier.

Details

  • Part no: C3DBD0BC0SJ (3 phase direct, class 1 accuracy, lithium backup, C?)

Interfaces

  • Infrared PACT port (this is a standard - possible adapter)
  • Serial port ("for PC, modem or PACTLAN"). This is apparently not PACT.

Software with support

  • Principal (DOS) or Ease II (can't get this to run on XP due to .vbx; probably needs 2000; uses stopcopy protection) from PRI
  • mv-rs, and possibly other Itron stuff
  • Ziphany

Source code

https://github.com/londonhackspace/Powered

Resources

A later model, with a nice overview of available metrics.

Presumably ex-PRI consultant on Calmu meters

Serial protocol

1200bps ASCII, \r terminated

Equals symbols are shown on some variables, but presumably wouldn't fit for many. This seems to be consistent within each value, however.

'N', 's', 'u' or 'x' are slightly special/buggy. If a valid index isn't provided for 'N' or 'x', the meter returns '\xff' with no '\r', so take steps to prevent this. If a valid index isn't provided for 'u', 'U\r' is returned. 's' always seems to return the same value.

Lowercase commands are always inverted and smaller than uppercase, suggesting they're from another perspective. Obviously, units still increase, so 'u' probably just calls 'U', explaining its strange behaviour.

Sampling seems to be live, so sampling more frequently will be more accurate. Due to the baud rate, a sample takes 120-240ms.

Commands

F Frequency "F=50.138\r"
R (Real?) time. "R=15:00:40\r"
S Serial number "SP99A01869\r"
s Meter information "s=", dword 0xa605019e, dword 0, "\r"
B[AVWvw] ?

  • "BAA3123B"
  • "BV182B85"
  • "BW918D2F"
  • "Bv05B6CE"
  • "Bw01B525"

I[123] Active Current (A)

  • "I1+15.230"
  • "I2+0.0000"
  • "I3-0.0300"

i[123] Reactive Current (A)

  • "i1-5.6300"
  • "i2-0.0000"
  • "i3-0.0100"

L[123] "Apparent" current (A)

  • "L1+9.0200"
  • "L2+0.0100"
  • "L3+0.0200"

K[123A] Apparent power (kVA)

  • "K1+2.0700"
  • "K2+0.0000"
  • "K3+0.0100"
  • "KA+2.0600"

KW Total Active power fundamental frequency

  • "KW+1.6300"

KV Total Reactive power

  • "KV-1.3300"

P[123] Real power (kW)

  • "P1+1.6400"
  • "P2-0.0000"
  • "P3+0.0000"

p[123] Reactive Power (kVAR)

  • "p1-1.3400"
  • "p2+0.0000"
  • "p3-0.0100"

Q[123A] Power factor

Not sure what the +/- means

  • "Q1=0.769-"
  • "Q2=1.000+"
  • "Q3=1.000+"
  • "QA=0.787-"

U[AVWvw] Units

  • "UA=2631984"
  • "UV=0349470"
  • "UW=2549220"
  • "Uv=0177551"
  • "Uw=0000001"

u[AVWvw] Units (duplicate?)

  • "UA=2631986"
  • "UV=0349470"
  • "UW=2549221"
  • "Uv=0177552"
  • "Uw=0000001"

V[123] Voltage (V)

  • "V1+236.75"
  • "V2+240.72"
  • "V3+242.45"

X[0-9A-F][0-9A-F] Return memory (see below)

\x83 ? Please don't call these, as they're probably for programming

\x84 ?

\xfa ?

\xfb ?

\xfc ?

\xfd ?

\xfe ?

Notes

  • V is clearly voltage.
  • I is clearly current.
  • Q is {0, 1}, so clearly power factor.
  • P is I * V, so must be true power.
  • K is P / Q, so must be apparent power.
  • L is I*Q, so "apparent" current.

Memory

This is probably RAM. This MCU is 768 bytes of RAM.

X00=A98991 # increments by ~ 0xb800-0xc800 every second (~50kHz MCU clock?)
X01=00008E # floats around here - drift/correction of X02?
X02=00C3E9 # floats around here - last increase of X00?
X03=03A590 # 
X04=00000A # static
X05=000000 # static
X06=FFFD1E
X07=0000FE # static
X08=0007C8 # floats around here
X09=0005CD # floats around here
X0A=FFFAD5 # floats around here
X0B=00000D # sometimes jumpy (0x03-0x2e) - adjustment?
X0C=000000 # static
X0D=FFFFFF # static
X0E=00007F # static
X0F=000000 # sometimes 0xffffff
X10=000000 # static
X11=00000A # static
X12=00008F # floats by +- 0x20/0x40 around here
X13=0000FF # static
X14=FFFFFF # static
X15=FFFFFF # static
X16=02EA22 # very slow increase
X17=FFFFFF # static
X18=000000 # static
X19=000000 # static
X1A=FBA66C # slow increase ~1/sec - timer
X1B=0000FF # static
X1C=000003 # static
X1D=000000 # static
X1E=000000 # static
X1F=73FAEE # static
X20=FFFFFF # static
X21=FFFFFF # static
X22=FFFFFF # static
X23=FFFFFF # static
X24=007F58 # also 0x53
X25=000000 # also +-0x20 occasionally
X26=FF9900 # also 0x0040FF, 0x000AE0, 0x001320
X27=00400B # also 0x001400, 0x001320
X28=687687 # also 0x001400, 0xC6C5FA, 0x001320
X29=FFFD13 # floats around here
X2A=0003E8 # static (1000)
X2B=0003E8 # static (1000)
X2C=03A4A8 # slow increase
X2D=03B0DC # slow increase
X2E=03BB34 # slow increase
X2F=0007C3
X30=FFFAC7
X31=0005AB # very slow increase
X32=00033A # very slow increase
X33=000003 # also 2
X34=000005 # also 2
X35=FFFDDA
X36=FFFFFF
X37=FFFFFC
X38=00027D
X39=FFFFFD
X3A=000001
X3B=26E6F4 # This is the value returned by command UW
X3C=000001 # This is (probably) the value returned by command Uw
X3D=05551E # This is the value returned by command UV
X3E=02B641 # This is the value returned by command Uv
X3F=282A7A # This is the value returned by command UA
X40=00000D # static
X41=00100D # static
X42=53100D # static
X43=58100D # static
X44=FFFFFF
X45=FF00FF # static
X46=0400FF # static
X47=0400FF # static
X48=03A4FC
X49=000000 # static
X4A=FFFFFF # static
X4B=050013 # static
X4C=000000 # static
X4D=050013 # static
X4E=000000 # static
X4F=000000 # static
X50=FFFFFF # static
X51=FFFFFF # static
X52=FFFFFF # static
X53=FFFFFF # static
X54=000000 # static
X55=000000 # also 0xffffff
X56=FFFFFF # static
X57=FFFFFF # static
X58=000000 # static
X59=FFFFFF # static
X5A=000000 # static
X5B=000000 # static
X5C=000000 # static
X5D=000000 # static
X5E=000000 # static
X5F=000000 # static
X60=000000 # static
X61=000000 # static
X62=000000 # static
X63=000000 # static
X64=000000 # static
X65=FFFFFF # static
X66=000000 # static
X67=000000 # static
X68=FFFFFF # static
X69=000000 # static
X6A=FFFFFF # static
X6B=FFFFFF # static
X6C=FFFFFF # static
X6D=FFFFFF # static
X6E=000000 # static
X6F=FFFFFF # static
X70=000000 # static
X71=000000 # static
X72=000000 # static
X73=000000 # static
X74=000000 # static
X75=000000 # static
X76=000000 # static
X77=FFFFFF # static
X78=000003 # static
X79=000076 # static
X7A=000015 # static
X7B=000000 # static
X7C=000019 # static
X7D=00216B # static
X7E=00000C # static
X7F=00001D # static
X80=000058 # static
X81=007F44 # static
X82=000001 # static
X83=000000 # static
X84=000000 # static
X85=000000 # static
X86=000000 # static
X87=000000 # static
X88=000000 # static
X89=000000 # static
X8A=000000 # static
X8B=000000 # static
X8C=000000 # static
X8D=000000 # static
X8E=000010
X8F=001A6F
X90=000000 # static
X91=000011 # static
X92=0006F0 # static
X93=0006F0 # static
X94=00000C # static
X95=000006 # static
X96=000002 # static
X97=FFFFFF # static
X98=000000 # also 0xffffff
X99=FFFFFF # static
X9A=FFFFFF # static
X9B=000000 # static
X9C=000000 # static
X9D=000000 # static
X9E=000000 # static
X9F=000000 # static
XA0=000003 # static
XA1=000000 # static
XA2=FFFFC0 # static
XA3=FFFF84 # static
XA4=000001 # static
XA5=000001 # static
XA6=000000 # static
XA7=000001 # static
XA8=000002 # static
XA9=000000 # static
XAA=000001 # static
XAB=000001 # static
XAC=007F3C # static
XAD=007F4E # static
XAE=007F58 # static
XAF=0000FF # static
XB0=0003E8 # static (1000)
XB1=0000FF # static
XB2=000000 # static
XB3=00016E # static
XB4=0005B5 # static
XB5=000708 # static
XB6=0003DF # static
XB7=0003E5 # static
XB8=0003F8 # static
XB9=001F40 # static (8000)
XBA=00015E # static
XBB=000000 # static
XBC=000A87 # static
XBD=000B9B # static
XBE=001D4C # static (7500)
XBF=000000 # static
XC0=004100 # static
XC1=0078E0
XC2=000095
XC3=000000 # static
XC4=000056 # floats around here
XC5=000054 # floats around here
XC6=00012F
XC7=00012A # static
XC8=00016D # static
XC9=001080 # static
XCA=007F00 # static
XCB=FFFD00 # static
XCC=007E00 # static
XCD=00110C # static
XCE=003348 # static
XCF=002730 # static
XD0=000384 # static
XD1=00293B # static
XD2=0029EB # static
XD3=0001FF # static
XD4=003262 # static
XD5=00FFFF # static
XD6=0332D4 # static
XD7=015180 # static
XD8=001F36 # static
XD9=014244 # static
XDA=000001 # static
XDB=000001 # static
XDC=000000 # static
XDD=000000 # static
XDE=000000 # static
XDF=989680 # static
XE0=FFFFFF # static
XE1=F3A27C # static
XE2=F3A27C # static
XE3=000AFA # static
XE4=000000 # static
XE5=000AF8 # static
XE6=000000 # static
XE7=73FAEE # static
XE8=CCBBAA # static
XE9=050002 # static
XEA=050013 # static
XEB=050013 # static
XEC=050013 # static
XED=050013 # static
XEE=050013 # static
XEF=050013 # static
XF0=050013 # static
XF1=050013 # static
XF2=050013 # static
XF3=050013 # static
XF4=050013 # static
XF5=050013 # static
XF6=050013 # static
XF7=050013 # static
XF8=050013 # static
XF9=050013 # static
XFA=050013 # static
XFB=050013 # static
XFC=050013 # static
XFD=050013 # static
XFE=050013 # static
XFF=050013 # static

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