A-84
ARRAY.REGISTER DESCRIPTION
USAGE NOTE
0.56
Number of samples before AD Fail Set
or Released
For Internal Use Only
0.57
Current number of consecutive bad AD
readings
For Internal Use Only
0.58
Vol period Complete flag
Read/Write
6
0.59
Log period Complete flag
Read/Write
7
0.60
Day period Complete flag
Read/Write
8
0.61 tubeCheckPoint
control Read/Write
9
0.62
Canadian Event Log Inhibit Flag
Read Only
10
0.63
Stop Logging Events
Read Only
11
0.64
Log in Gage Pressure
Read/Write
12
0.65
Log DP Check
Read/Write
13
0.66
Reserved for Selectable Units
Read/Write
14
0.67
Reserved for Selectable Units
Read/Write
14 & 15
0.68
Reserved for Selectable Units
Read/Write
14
Tube Byte Register Usage Notes:
1.
Super-Compressibility Method: 0=NX19 with FIXED FT AND FP VALUES, 1=NX19 AUTO,
2=NX19 GRAVITY CO2 & N2, 3=NX19 CO2 & N2 & C1, 11=AGA-8 Gross, 12=AGA-8 Detail
2.
Characteristics Type: This was used in “Totalflow old database” format. This does not apply to
X-series, DB2 format.
3.
Live Analysis Configuration flags: 0=USE FIXED ANALYSIS, 1=USE LIVE ANALYSIS FROM
AIU, 2=USE LIVE ANALYSIS FROM OTHER PROTOCOL, 16=USE FIXED ANALYSIS ON
ERROR. USE FIXED ANALYSIS ON ERROR may be added to selections 1 or 2.
4.
Flow rate / Volume scale flags: bit encoded flags –
Bits 0-1 rates times
0 = /hour, 1 = /day, 2 = N/A, 3 = N/A
Bits 2-4 corrected volume, rate quantity units
0 = scf, 4 = dscf, 8 = cscf, 12 = mscf
16 = dmscf, 20 = cmscf, 28 = mmscf
Bits 5-7 uncorrected volume, rate quantity units
0 = acf, 32 = dacf, 64 = cacf, 96 = macf,
128 = dmacf, 160 = cmacf, 224 = mmacf
5.
Aux Contact 1 & 2 select bits low byte: 1=trip contact on low charger; 2=trip contact on ACF low;
4=trip contact on ACF high; 8=trip contact on Ap low; 16=trip contact on Ap high; 32=trip contact
on remote sense; 64=auto re-open; 128=trip contact on volume set-point. These registers can
also be set from 16-bit integer registers 1.10 and 1.11.
6.
The flag is used in testing the XFC/XRC. The flag will be set to a “1” when a volume calculation
and all operations associated with it are complete. Typically a test sets the flag to “0”. Then does
something to cause a calculation. It then waits until the flag is “1” to evaluate the results of the
test.
Содержание XRC6490
Страница 1: ...2100802 001 AB TOTALFLOW XSeries Remote Controller User s Manual ...
Страница 6: ...iv B B Bl lla a an n nk k k P P Pa a ag g ge e e ...
Страница 10: ...viii B B Bl lla a an n nk k k P P Pa a ag g ge e e ...
Страница 19: ...1 5 Standard Enclosure Cont RC 6790 X Figure 1 2 Model XRC6790 Continued on Next Page ...
Страница 20: ...1 6 Standard Enclosure Cont 18 00 15 52 RC 6890 X 28 81 15 52 28 00 20 09 18 70 Figure 1 3 Model XRC6890 ...
Страница 24: ...1 10 XRC 195 Board Specifications Cont Figure 1 5 Complete View XRC 195 Board Continued on Next Page ...
Страница 41: ...1 27 Totalflow Input Output Modules Cont Figure 1 16 XRC6990 Inside View ...
Страница 42: ...1 28 B B Bl lla a an n nk k k P P Pa a ag g ge e e ...
Страница 56: ...2 14 AC Charging Unit Installation Cont Figure 2 12 DC Wiring Instructions Figure 2 13 AC Wiring Instructions ...
Страница 63: ...2 21 XRC Communication Jumper Settings and Field Wiring Cont Figure 2 19 Other Field Wiring I O Connections ...
Страница 64: ...2 22 B B Bl lla a an n nk k k P P Pa a ag g ge e e ...
Страница 86: ...4 12 Replacing XRC 195 Board Cont Figure 4 5 XRC Board Connections ...
Страница 88: ...4 14 B B Bl lla a an n nk k k P P Pa a ag g ge e e ...
Страница 112: ...5 24 12V Communication Supply Voltage Test Cont Figure 5 9 XRC 195 Communication Wiring ...
Страница 292: ...A 176 B B Bl lla a an n nk k k P P Pa a ag g ge e e ...
Страница 340: ...B 48 B B Bl lla a an n nk k k P P Pa a ag g ge e e ...
Страница 342: ...C 2 B B Bl lla a an n nk k k P P Pa a ag g ge e e ...