Data structure DOCUMENT EDITION: 1.9. IS RELATED TO SOFTWARE: PROGRAM VERSION: V1601 PROGRAM REVISION: S004.xx HARDWARE VERSION: H4.1.

Transcription

1 IS RELATED TO SOFTWARE: PROGRAM VERSION: V1601 PROGRAM REVISION: S004.xx HARDWARE VERSION: H4.1.0 DOCUMENT EDITION: 1.9 1

2 1. TYPES OF SENT DATA - GAZMODEM 1 With the use of GazModem 1 transmission protocol, following data can be sent: registered values of daily data and current time (according to standard of GAZMODEM tables) DAILY DATA MacMAT IV allows to read daily data in standard and extended mode. In standard mode when using GazModem 1 protocol, it is possible to read only state of counter Vb index (maximum size of daily data is limited when it is read through remote transmission to number PASCAL REAL full size is available only from the display of unit). In extended mode when using GazModem 3 protocol, it is possible to read all daily parameters (marked below with letter D in column with additional info of DP table). Methodology of daily data readout (example GazModem frames) are presented in document Transmission protocols. 2. MODBUS PROTOCOL Device is compatible with protocols ModBUS RTU and ModBUS TCP. By default data is send in format (optional format is also available applies only to ModBUS RTU, for numbers in short format). Address of MacMAT IV, used in protocol ModBUS is determined by GazModem address and it is a modulo 256 sum of this address. Register numbers of readout parameters are given in DP table presented in point 3.1. Detailed description of this protocol is in document Transmission protocols. 2

3 3. PROTOCOL GAZMODEM LIST OF AVAILABLE PARAMETERS IN DP TABLE (1) number of parameter (so-called DP index); (2) name of parameter; (3) parameter description; info: symbol BLOK=ON means that the parameter is secured with the hardware programming lock; MET metrological parameter of MacMAT IV, in GT realization compatible with MID, secured by manufacturer with hardware metrological lock (parameter lock MET =1). (4) exponent; (5) unit; (6) additional info: M: parameter which is modifiable; R: parameter which is registered with registration period; D: parameter which is daily registered; C: parameter which is registered instantly; O: parameter which is available for readout; Type of parameter is also given (LONG long real, SHORT short real, DWORD, WORD, BYTE, BOOLEAN, STRING); (7) method of registered parameter computation and its status: Av: average value from the registration period; Mo: momentary value from the registration period; Su: sum of temporarily increments from the registration period; Max: maximum value from the registration period; (8) permission level: U0 the parameter can be modified by user USER-0, service and producer U1 the parameter can be modified by user USER-1, user USER-0, service and producer S the parameter can be modified only by user with service authorization P the parameter can be modified only by user with producer authorization M the parameter can be modified only by user with metrological authorization, or after removing of metrological lock by USER-0 (state of metrological lock is present in lock MET parameter) (9) numbers of registers in ModBUS protocol. - description of parameters which applies only to pulse type of MacMAT IV (realization GT); - description of parameters which applies only to orifice type of MacMAT IV (realization KR); 3

4 (1) (2) (3) (4) (5) (6) (7) (8) (9) 0 Vb Counter of volume at base conditions; 0 m3 DRO ^long Mo 5000>...> Vm Counter of volume at measurement conditions; Range of programming: 0..1e11; BLOK=ON; 0 m3 DRMO ^long Mo U0 5004>...> V2 Control counter of volume at measurement conditions; 0 m3 O ^long 5008>...> Vk Counter of volume at contractual conditions; 0 m3 DRO ^long Mo 5012>...> E Counter of energy; 0 kwh DRO ^long Mo 5016>...> M Counter of mass; 0 kg DRO ^long Mo 5020>...> Vbe Emergency counter of volume at base conditions; 0 m3 DRO ^long Mo 5024>...> Vke Emergency counter of volume at contractual conditions; 0 m3 DRO ^long Mo 5028>...> Ee Emergency counter of energy; 0 kwh DRO ^long Mo 5032>...> Me Emergency counter of mass; 0 kg DRO ^long Mo 5036>...> Reserved space 0 ^long 5040>...> Reserved space 0 ^long 5044>...> Qb 13 Qm 14 Qk 15 QE 16 QM 17 dvbh 18 deh Volume flow at base conditions; Value of flow includes gas meter housing temperature expansion coefficient `alfatkg` (DP:439) and correction function of gas meter `F(Q)` (DP:462); Volume flow at measurement conditions; Value of flow includes gas meter housing temperature expansion coefficient `alfatkg` (DP:439) and correction function of gas meter `F(Q)` (DP:462); Volume flow at contractual conditions; Value of flow includes gas meter housing temperature expansion coefficient `alfatkg` (DP:439) and correction function of gas meter `F(Q)` (DP:462); Energy flow; Value of flow includes gas meter housing temperature expansion coefficient `alfatkg` (DP:439) and correction function of gas meter `F(Q)` (DP:462); Mass flow; Value of flow includes gas meter housing temperature expansion coefficient `alfatkg` (DP:439) and correction function of gas meter `F(Q)` (DP:462); Increments of volume on gas meter at base conditions during one hour (aggregate increments of main counter `Vb` (DP:0) and emergency counter `Vbe` (DP:6)); Increments of energy on gas meter during one hour (aggregate increments of main counter `E` (DP:4) and emergency counter `Ee` (DP:8)); 0 m3/h CO ^short 5048> m3/h CO ^short 5050> m3/h O ^short 5052> kw O ^short 5054> kg/h O ^short 5056> m3 O ^short 5058> kwh O ^short 5060> dvb Increments of volume on gas meter at base conditions; 0 m3 RO ^short Su 5062> dvm Increments of volume counter at measurement conditions; 0 m3 RO ^short Su 5064> dv2 Increments of volume control counter at measurement conditions; 0 m3 O ^short 5066> dvk Increments of volume at gas meter at contractual conditions; 0 m3 RO ^short Su 5068> de Increments of energy at gas meter; 0 kwh RO ^short Su 5070> dm Increments of mass at gas meter; 0 kg RO ^short Su 5072> dlf Increments of pulses on input LF; 0 imp O ^word dhf1 Increments of pulses on input HF1; 0 imp O ^word dhf2 Increments of pulses on input HF2; 0 imp O ^word dp Current value of differential pressure at orifice; 0 mbar O ^short 5077> p Current value of gas pressure; 0 MPa CRO ^long Av 5079>...>5082 4

5 30 t Current value of gas temperature; 0 'C CRO ^long Av 5083>...> RA Current value of parameter on reserve input A; 0 RO ^short Av 5087> RB Current value of parameter on reserve input B; 0 RO ^short Av 5089> R1 Current value of parameter on reserve input 1; 0 O ^short 5091> R2 Current value of parameter on reserve input 2; 0 O ^short 5093> R3 Current value of parameter on reserve input 3; 0 O ^short 5095> R4 Current value of parameter on reserve input 4; 0 O ^short 5097> R5 Current value of parameter on reserve input 5; 0 O ^short 5099> R6 Current value of parameter on reserve input 6; 0 O ^short 5101> R7 Current value of parameter on reserve input 7; 0 O ^short 5103> R8 Current value of parameter on reserve input 8; 0 O ^short 5105> RU1 Current value of parameter on reserve input U1; 0 O ^short 5107> RU2 Current value of parameter on reserve input U2; 0 O ^short 5109> RU3 Current value of parameter on reserve input U3; 0 O ^short 5111> RU4 Current value of parameter on reserve input U4; 0 O ^short 5113> ph Vb Maximum hourly peak of dvbh (DP:17) from current billing day; 0 m3/h DO ^short 5115> eph Vb Estimated hourly increments of dvbh (DP:17) during current hour; 0 m3/h O ^short 5117> ph E Maximum hourly peak of deh (DP:18) from current billing day; 0 kw DO ^short 5119> eph E Estimated hourly increments of deh (DP:18) during current hour; 0 kw O ^short 5121> Hi Inferior calorific value; 0 MJ/m3 O ^long 5123>...> Z Compression factor of the gas at measurement conditions; 0 O ^long 5127>...> Zb Compression factor of the gas at base conditions; 0 O ^long 5131>...> Zk Compression factor of the gas at contractual conditions; 0 O ^long 5135>...> K1 54 Kk Relative compression factor at base conditions; Depending on the configuration of parameter conf_algz (DP:62) it is possible to program constant value of compression factor in range 0, or automatic computation, basing on equation K1 = Z / Zb; Relative compression factor at contractual conditions; Depending on the configuration of parameter conf_algz (DP:62) it is possible to program constant value of compression factor in range 0, or automatic computation, basing on equation Kk = Z / Zk; 0 MO ^long U0 5139>...> MO ^long U0 5143>...> C Conversion factor to base conditions; 0 O ^long 5147>...> Ck Conversion factor to contractual conditions; 0 O ^long 5151>...> Ck/C Conversion factor from Tk/Tb; 0 RO ^long Av 5155>...> W Wobbe index value; W = Hs/sqrt(d); 0 MJ/m3 O ^long 5159>...> rom Gas density at measurement conditions; 0 kg/m3 O ^long 5163>...> rob Gas density at base conditions; Range of programming: 0, ; 0 kg/m3 MO ^long U0 5167>...> conf_gas Configuration of gas composition type; 0 O ^byte

6 62 conf_algz 63 conf_hs 64 conf_rob Configuration of used algorithm for gas compression factor computation; 0 - AGA8-92DC, 1 - MGERG-88 (full composition), 2 - SGERG-88 (Hs-d-XCO2-XH2), 3 - AGA8-G1, 4 - AGA8-G2, 5 - constant coefficient K1; Configuration of superior calorific value source in mass realization of device. 0 - from parameter DP:68 (Hs), 1 - from parameter DP:679 (Hs_MA); Configuration of gas density at base condition obtaining method in mass realization of device; 0 - calculated basing on relative density, 1 - programmed manually; 0 MO ^byte U MO ^byte U MO ^byte U XH2 Molar share of hydrogen for SGERG-88, AGA8-G1 and AGA8-G2; Range of programming: 0..10; 0 % MO ^long U0 5175>...> XCO2 Molar share of carbon dioxide for SGERG-88, AGA8-G1 and AGA8-G2; Range of programming: 0..30; 0 % MO ^long U0 5179>...> XN2 Molar share of nitrogen for AGA8-G1 and AGA8-G2; Range of programming: 0..50; 0 % MO ^long U0 5183>...> Hs Superior calorific value; Range of programming: 0..66; 0 MJ/m3 RMO ^long Av U0 5187>...> d Relative gas density; Range of programming: 0,07..1,52; 0 RMO ^long Av U0 5191>...> C1 Share of methane; Range of programming: ; 0 % RMO ^long Av U0 5195>...> C2 Share of ethane; Range of programming: 0..20; 0 % RMO ^long Av U0 5199>...> C3 Share of propane; Range of programming: 0..5; 0 % RMO ^long Av U0 5203>...> n-c4 Share of n-butane; Range of programming: 0..1,5; 0 % RMO ^long Av U0 5207>...> i-c4 Share of i-butane; Range of programming 0..1,5 (sum of butanes <1,5%); 0 % RMO ^long Av U0 5211>...> n-c5 Share of n-pentane; Range of programming: 0..0,5; 0 % RMO ^long Av U0 5215>...> i-c5 Share of i-pentane; Range of programming: 0..0,5 (sum of pentanes <0,5%); 0 % RMO ^long Av U0 5219>...> neo-c5 Share of neopentane; Range of programming: 0..0,5; 0 % RMO ^long Av U0 5223>...> C6+ Share of hexane and higher hydrocarbons; Range of programming: 0..0,2; 0 % RMO ^long Av U0 5227>...> N2 Share of nitrogen; Range of programming: 0..50; 0 % RMO ^long Av U0 5231>...> CO2 Share of carbon dioxide; Range of programming: 0..30; 0 % RMO ^long Av U0 5235>...> C6H14 Share of n-hexane; Range of programming: 0..0,1; 0 % RMO ^long Av U0 5239>...> C7H16 Share of n-heptane; Range of programming: 0..0,05; 0 % RMO ^long Av U0 5243>...> C8H18 Share of n-octane; Range of programming: 0..0,05 (sum of C8H18 + C9H20 + C10H22 in range 0..0,05); 0 % RMO ^long Av U0 5247>...> C9H20 Share of n-nonane; Range of programming: 0..0,05 (sum of C8H18 + C9H20 + C10H22 in range 0..0,05); 0 % RMO ^long Av U0 5251>...> C10H22 Share of n-decane; Range of programming: 0..0,05 (sum of C8H18 + C9H20 + C10H22 in range 0..0,05); 0 % RMO ^long Av U0 5255>...> H2 Share of hydrogen; Range of programming: 0..10; 0 % RMO ^long Av U0 5259>...> H2O Share of water; Range of programming: 0..0,015; 0 % RMO ^long Av U0 5263>...> H2S Share of hydrogen sulfide; Range of programming: ; 0 % RMO ^long Av U0 5267>...> CO Share of carbon monoxide; Range of programming: 0..3; 0 % RMO ^long Av U0 5271>...> He Share of helium; Range of programming: 0..0,5; 0 % RMO ^long Av U0 5275>...> Ar Share of argon; Range of programming: ; 0 % RMO ^long Av U0 5279>...> O2 Share of oxygen; Range of programming: ; 0 % RMO ^long Av U0 5283>...> Reserved space 0 ^short 5287> T1 Combustion temperature for computation of the superior calorific value Hs. Range of programming: ; MET; BLOK=ON; 0 K MO ^long M/U0 5289>...>5292 6

7 95 G t Time counted from the moment of obtaining new gas components for calculations; 0 min O ^dword 5293> G n 97 G s 98 G tout 99 G mode 100 G port 101 G addr port 102 G addr LAN Permissible deviation of total sum of gas components from the 100%; Range of programming: 0..0,01; Default value 0,001; The sum of gas components programmed remotely via any transmission port. After programming 100% sum +/- `G n` (DP:96), the value is cleared and new gas composition is taken for calculations (DP table presents all gas components and allows for their separate modifications by different users and different transmission ports, before obtaining total gas composition); Time after which an alarm `No GasComp` (ZD:130) will be generated when device waits for a full gas composition (sum of components different from 100% +/- G n); Range of programming: ; Gas composition programming method; 0 - "slave" mode - programming gas component into MacMAT IV; 1 - "master" mode - device takes the components from given ModBUS registers; Transmission port for programming of gas composition in master/slave modes. Possible configuration: 0 - COM1, 1 - COM2, 2 - COM3, 3 - COM4, 4 - OPTO, 5 - LAN; 6 - any port (slave mode); Transmission address for a given COM port (configured in parameter G port) when reading gas components in master mode; Range of programming: ; Transmission address in master mode, for reading gas components through LAN port. Address format: xxx.xxx.xxx.xxx:xx (address IP:port); 0 % MO ^long U0 5295>...> % O ^long 5299>...> min MO ^word U MO ^boolean U MO ^byte U MO ^word U MO ^string U0 5307>...> G c The time between successive readings of the gas composition in minutes; Range of programming: ; 0 min MO ^dword U0 5319> Reserved space 0 ^word XH2 MB ModBUS register for molar share of hydrogen for SGERG-88, AGA8-G1 and AGA8-G2; Range of programming: ; 0 MO ^word U XCO2 MB ModBUS register for molar share of carbon dioxide for SGERG-88, AGA8-G1 and AGA8-G2; Range of programming: ; 0 MO ^word U XN2 MB ModBUS register for molar share of nitrogen for AGA8-G1 and AGA8-G2; Range of programming: ; 0 MO ^word U Hs MB ModBUS register for superior calorific value; Range of programming: ; 0 MO ^word U d MB ModBUS register for relative gas density; Range of programming: ; 0 MO ^word U C1 MB ModBUS register for share of methane; Range of programming: ; 0 MO ^word U C2 MB ModBUS register for share of ethane; Range of programming: ; 0 MO ^word U C3 MB ModBUS register for share of propane; Range of programming: ; 0 MO ^word U n-c4 MB ModBUS register for share of n-butane; Range of programming: ; 0 MO ^word U i-c4 MB ModBUS register for share of i-butane; Range of programming: ; 0 MO ^word U n-c5 MB ModBUS register for share of n-pentane; Range of programming: ; 0 MO ^word U i-c5 MB ModBUS register for share of i-pentane; Range of programming: ; 0 MO ^word U neo-c5 MB ModBUS register for share of neopentane; Range of programming: ; 0 MO ^word U C6+ MB ModBUS register for share of hexane and higher hydrocarbons; Range of programming: ; 0 MO ^word U N2 MB ModBUS register for share of nitrogen; Range of programming: ; 0 MO ^word U CO2 MB ModBUS register for share of carbon dioxide; Range of programming: ; 0 MO ^word U C6H14 MB ModBUS register for share of n-hexane; Range of programming: ; 0 MO ^word U C7H16 MB ModBUS register for share of n-heptane; Range of programming: ; 0 MO ^word U C8H18 MB ModBUS register for share of n-octane; Range of programming: ; 0 MO ^word U

8 124 C9H20 MB ModBUS register for share of n-nonane; Range of programming: ; 0 MO ^word U C10H22 MB ModBUS register for share of n-decane; Range of programming: ; 0 MO ^word U H2 MB ModBUS register for share of hydrogen; Range of programming: ; 0 MO ^word U H2O MB ModBUS register for share of water; Range of programming: ; 0 MO ^word U H2S MB ModBUS register for share of hydrogen sulfide; Range of programming: ; 0 MO ^word U CO MB ModBUS register for share of carbon monoxide; Range of programming: ; 0 MO ^word U He MB ModBUS register for share of helium; Range of programming: ; 0 MO ^word U Ar MB ModBUS register for share of argon; Range of programming: ; 0 MO ^word U O2 MB ModBUS register for share of oxygen; Range of programming: ; 0 MO ^word U pb Base pressure; Range of programming: 0,95..1,05; MET; BLOK=ON; 0 bar MO ^long M/U0 5350>...> Tb Base temperature; Range of programming: ; MET; BLOK=ON; 0 K MO ^long M/U0 5354>...> Tk Contractual temperature; Range of programming: ; Contractual pressure is equal to base pressure pb; 0 K MO ^long U0 5358>...> LF factor Gas meter LF pulse rate; Range of programming: 0, ; BLOK=ON; 0 unit/imp MO ^long U0 5362>...> HF1 factor Gas meter HF1 pulse rate; Range of programming: 1..1e4; BLOK=ON; 0 imp/unit MO ^long U0 5366>...> HF2 factor Gas meter HF2 pulse rate; Range of programming: 1..1e4; BLOK=ON; 0 imp/unit MO ^long U0 5370>...> Qm min Range of gas meter - minimum; Range of programming: -4e4..4e4; BLOK=ON; 0 m3/h MO ^short U0 5374> Qm max Range of gas meter - maximum; Range of programming: -4e4..4e4; BLOK=ON; 0 m3/h MO ^short U0 5376> dp1 min Differential pressure transducer dp1 range - minimum; Range of programming: 0..1e4; BLOK=ON; 0 mbar MO ^short U0 5378> dp1 max Differential pressure transducer dp1 range - maximum; Range of programming: 0..1e4; BLOK=ON; 0 mbar MO ^short U0 5380> dp2 min Differential pressure transducer dp2 range - minimum; Range of programming: 0..1e4; BLOK=ON; 0 mbar MO ^short U0 5382> dp2 max Differential pressure transducer dp2 range - maximum; Range of programming: 0..1e4; BLOK=ON; 0 mbar MO ^short U0 5384> p min Range of pressure transducer - minimum; Range of programming: 0..65; MET; BLOK=ON; 0 MPa MO ^long M/U0 5386>...> p max Range of pressure transducer - maximum; Range of programming: 0..65; MET; BLOK=ON; 0 MPa MO ^long M/U0 5390>...> t min Range of temperature transducer - minimum; Range of programming: ; MET; BLOK=ON; 0 'C MO ^long M/U0 5394>...> t max Range of temperature transducer - maximum; Range of programming: ; MET; BLOK=ON; 0 'C MO ^long M/U0 5398>...> RA min Range of reserve input A - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5402> RA max Range of reserve input A - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5404> RB min Range of reserve input B - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5406> RB max Range of reserve input B - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5408> R1 min Range of reserve input 1 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5410> R1 max Range of reserve input 1 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5412>5413 8

9 155 R2 min Range of reserve input 2 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5414> R2 max Range of reserve input 2 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5416> R3 min Range of reserve input 3 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5418> R3 max Range of reserve input 3 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5420> R4 min Range of reserve input 4 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5422> R4 max Range of reserve input 4 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5424> R5 min Range of reserve input 5 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5426> R5 max Range of reserve input 5 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5428> R6 min Range of reserve input 6 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5430> R6 max Range of reserve input 6 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5432> R7 min Range of reserve input 7 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5434> R7 max Range of reserve input 7 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5436> R8 min Range of reserve input 8 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5438> R8 max Range of reserve input 8 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5440> RU1 min Range of reserve input U1 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5442> RU1 max Range of reserve input U1 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5444> RU2 min Range of reserve input U2 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5446> RU2 max Range of reserve input U2 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5448> RU3 min Range of reserve input U3 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5450> RU3 max Range of reserve input U3 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5452> RU4 min Range of reserve input U4 - minimum; Range of programming: -1e5..1e5; 0 MO ^short U0 5454> RU4 max Range of reserve input U4 - maximum; Range of programming: -1e5..1e5; 0 MO ^short U0 5456> dyn p Step change of parameter p; Range of programming: 0..10; value 0 disables the control of pressure step changes; 0 MPa MO ^short U0 5458> dyn t Step change of parameter t; Range of programming: 0..20; value 0 disables the control of temperature step changes; 0 'C MO ^short U0 5460> dyn Qm Step change of parameter Qm; Range of programming: 0..1e4; value 0 disables the control of flow step changes; 0 m3/h MO ^short U0 5462> dyn fhf1 181 dyn fhf2 Step change of parameter fhf1; Range of programming: 0..1e3; value 0 disables the control of frequency HF1 step changes; Step change of parameter fhf2; Range of programming: 0..1e3; value 0 disables the control of frequency HF2 step changes; 0 Hz MO ^short U0 5464> Hz MO ^short U0 5466>5467 9

10 182 l Qm Lower limit of flow at measurement conditions; Range of programming: -4e4..4e4; 0 m3/h MO ^short U1 5468> u Qm Upper limit of flow at measurement conditions; Range of programming: -4e4..4e4; 0 m3/h MO ^short U1 5470> l dp Lower limit of differential pressure value; Range of programming: 0..1e4; 0 mbar MO ^short U1 5472> u dp Upper limit of differential pressure value; Range of programming: 0..1e4; 0 mbar MO ^short U1 5474> l p Lower limit of pressure value; Range of programming: 0..65; 0 MPa MO ^short U1 5476> u p Upper limit of pressure value; Range of programming: 0..65; 0 MPa MO ^short U1 5478> l t Lower limit of temperature value; Range of programming: ; 0 'C MO ^short U1 5480> u t Upper limit of temperature value; Range of programming: ; 0 'C MO ^short U1 5482> l RA Lower limit of reserve A value; Range of programming: -1e5..1e5; 0 MO ^short U1 5484> u RA Upper limit of reserve A value; Range of programming: -1e5..1e5; 0 MO ^short U1 5486> l RB Lower limit of reserve B value; Range of programming: -1e5..1e5; 0 MO ^short U1 5488> u RB Upper limit of reserve B value; Range of programming: -1e5..1e5; 0 MO ^short U1 5490> l R1 Lower limit of reserve 1 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5492> u R1 Upper limit of reserve 1 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5494> l R2 Lower limit of reserve 2 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5496> u R2 Upper limit of reserve 2 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5498> l R3 Lower limit of reserve 3 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5500> u R3 Upper limit of reserve 3 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5502> l R4 Lower limit of reserve 4 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5504> u R4 Upper limit of reserve 4 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5506> l R5 Lower limit of reserve 5 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5508> u R5 Upper limit of reserve 5 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5510> l R6 Lower limit of reserve 6 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5512> u R6 Upper limit of reserve 6 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5514> l R7 Lower limit of reserve 7 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5516> u R7 Upper limit of reserve 7 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5518> l R8 Lower limit of reserve 8 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5520> u R8 Upper limit of reserve 8 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5522> l RU1 Lower limit of reserve U1 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5524>

11 211 u RU1 Upper limit of reserve U1 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5526> l RU2 Lower limit of reserve U2 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5528> u RU2 Upper limit of reserve U2 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5530> l RU3 Lower limit of reserve U3 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5532> u RU3 Upper limit of reserve U3 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5534> l RU4 Lower limit of reserve U4 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5536> u RU4 Upper limit of reserve U4 value; Range of programming: -1e5..1e5; 0 MO ^short U1 5538> l dh1 219 l dh2 220 l dh3 221 l dh mode 222 t lim1 223 t lim2 224 l0 dh1 First limit for hourly increments of programmed value in parameter "l dh mode" (DP:221); Range of programming: 0..9e6.; value 0 turns off control of the limit; Second limit for hourly increments of programmed value in parameter "l dh mode" (DP:221); Range of programming: 0..9e6.; value 0 turns off control of the limit; Third limit for hourly increments of programmed value in parameter "l dh mode" (DP:221); Range of programming: 0..9e6.; value 0 turns off control of the limit; Type of quantity for the limits of hourly increments: 0 - limits of volume increments at base conditions; 1 - limits of energy increments; Time period, after which first limit of hourly increments of programmed in parameter "l dh mode" (DP:221) value, won`t generate alarm; Range of programming: ; Time period, after which second limit of hourly increments of programmed in parameter "l dh mode" (DP:221) value, won`t generate alarm; Range of programming: ; Lower point of limit dh1 expressed in percentages; Value 100% means, that in time period t lim1 (DP:222), value of limit remains constant, equal to l dh1 (DP:218); 0 MO ^short U1 5540> MO ^short U1 5542> MO ^short U1 5544> MO ^boolean U s MO ^word U s MO ^word U % MO ^short U1 5549> l0 dh2 Lower point of limit dh2 expressed in percentages; Value 100% means, that in time period t lim2 (DP:223), value of limit remains constant, equal to l dh2 (DP:219); 0 % MO ^short U1 5551> a l dh1 Current value of dynamic increments of limit dh1; 0 O ^short 5553> a l dh2 Current value of dynamic increments of limit dh2; 0 O ^short 5555> l HF1/LF 229 t HF1/LF 230 l HF1/2 231 t HF1/2 Required amount of pulses increments from input HF1 per 1 LF pulse; Range of programming: ; value 0 disables control and clears alarm `HF1/LF limit` (ZD:65); Allowed divergence of pulses increments from input HF1 per 1 LF pulse. Range of programming: 0..10% of limit l HF1/LF (DP:228) value. Divergence which will exceed the tolerance threshold generates alarm `HF1/LF limit` (ZD:65); Horizon of pulses increments comparison from inputs HF1 and HF2; Range of programming: either 0 or ; value 0 disables control and clears alarm `HF1-HF2 limit` (ZD:69); Allowed divergence of pulses increments from input HF1 and HF2; Range of programming: 0..10% of limit l HF1/2 (DP:230). Divergence which will exceed the tolerance threshold generates alarm `HF1-HF2 limit` (ZD:69); 0 imp MO ^dword U1 5557> % MO ^short U1 5559> imp MO ^dword U1 5561> % MO ^short U1 5563> Param1 DP index of chosen parameter 1, controlled by limit; Range of programming: 0 up to maximum index of DP table; 0 MO ^word U l Param1 Lower limit of parameter Param1; Range of programming: -1e6..1e6; 0 MO ^short U1 5566> u Param1 Upper limit of parameter Param1; Range of programming: -1e6..1e6; 0 MO ^short U1 5568>

12 235 Param2 DP index of chosen parameter 2, controlled by limit; Range of programming: 0 up to maximum index of DP table; 0 MO ^word U l Param2 Lower limit of parameter Param2; Range of programming: -1e6..1e6; 0 MO ^short U1 5571> u Param2 Upper limit of parameter Param2; Range of programming: -1e6..1e6; 0 MO ^short U1 5573> Param3 DP index of chosen parameter 3, controlled by limit; Range of programming: 0 up to maximum index of DP table; 0 MO ^word U l Param3 Lower limit of parameter Param3; Range of programming: -1e6..1e6; 0 MO ^short U1 5576> u Param3 Upper limit of parameter Param3; Range of programming: -1e6..1e6; 0 MO ^short U1 5578> Param4 DP index of chosen parameter 4, controlled by limit; Range of programming: 0 up to maximum index of DP table; 0 MO ^word U l Param4 Lower limit of parameter Param4; Range of programming: -1e6..1e6; 0 MO ^short U1 5581> u Param4 Upper limit of parameter Param4; Range of programming: -1e6..1e6; 0 MO ^short U1 5583> meter s/n Gas meter serial number; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5585>...> dp1 s/n 246 dp2 s/n 247 p s/n 248 t s/n Serial number of differential pressure transducer dp1; Range of programming: string of characters with a length of symbols; Serial number of differential pressure transducer dp2; Range of programming: string of characters with a length of symbols; Serial number of pressure transducer; Range of programming: string of characters with a length of symbols; MET; BLOK=ON; Serial number of temperature transducer; Range of programming: string of characters with a length of symbols; MET; BLOK=ON; 0 MO ^string U0 5597>...> MO ^string U0 5609>...> MO ^string M/U0 5621>...> MO ^string M/U0 5633>...> RA s/n Serial number of reserve A transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5645>...> RB s/n Serial number of reserve B transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5657>...> R1 s/n Serial number of reserve 1 transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5669>...> R2 s/n Serial number of reserve 2 transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5681>...> R3 s/n Serial number of reserve 3 transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5693>...> R4 s/n Serial number of reserve 4 transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5705>...> R5 s/n Serial number of reserve 5 transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5717>...> R6 s/n Serial number of reserve 6 transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5729>...> R7 s/n Serial number of reserve 7 transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5741>...> R8 s/n Serial number of reserve 8 transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5753>...> RU1 s/n 260 RU2 s/n 261 RU3 s/n Serial number of reserve U1 transducer; Range of programming: string of characters with a length of symbols; Serial number of reserve U2 transducer; Range of programming: string of characters with a length of symbols; Serial number of reserve U3 transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5765>...> MO ^string U0 5777>...> MO ^string U0 5789>...>

13 262 RU4 s/n Serial number of reserve U4 transducer; Range of programming: string of characters with a length of symbols; 0 MO ^string U0 5801>...> NRA Description of reserve A input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5813>...> NRB Description of reserve B input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5825>...> NR1 Description of reserve 1 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5837>...> NR2 Description of reserve 2 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5849>...> NR3 Description of reserve 3 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5861>...> NR4 Description of reserve 4 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5873>...> NR5 Description of reserve 5 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5885>...> NR6 Description of reserve 6 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5897>...> NR7 Description of reserve 7 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5909>...> NR8 Description of reserve 8 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5921>...> NRU1 Description of reserve U1 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5933>...> NRU2 Description of reserve U2 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5945>...> NRU3 Description of reserve U3 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5957>...> NRU4 Description of reserve U4 input; Range of programming: string of characters with a length of 1..6 symbols; 0 MO ^string U1 5969>...> Reserved space 0 ^short 5981> Reserved space 0 ^short 5983> Reserved space 0 ^short 5985> beta Necking of orifice; beta = d akt / D akt; 0 O ^short 5987> d20 Orifice diameter at 20'C; Range of programming: 12, ; BLOK=ON; 0 mm MO ^long U0 5989>...> D20 Pipeline diameter at 20'C; Range of programming: ; BLOK=ON; 0 mm MO ^long U0 5993>...> alfatk Thermal expansion coefficient of the orifice material; Range of programming: 0..0,0005; BLOK=ON; 0 1/'C MO ^long U0 5997>...> alfatr Thermal expansion coefficient of the pipeline material; Range of programming: 0..0,0005; BLOK=ON; 0 1/'C MO ^long U0 6001>...> Re Reynolds number; 0 O ^short 6005> mi m Dynamic viscosity at measurement conditions; 0 Pa*s O ^short 6007> mi b Dynamic viscosity at base conditions; 0 Pa*s O ^short 6009> kap m Isentropic exponent at measurement conditions; 0 O ^short 6011> kap b Isentropic exponent at base conditions; 0 O ^short 6013> eps Expansion number; 0 O ^short 6015> Cp Flow coefficient; 0 O ^short 6017> conf_cp Configuration of flow coefficient Cp computation method; Available options: 1-(option1= Stolz formula), 2- (option2= Reader-Harris/Gallagher formula); BLOK=ON; 0 MO ^byte U

14 293 conf_eps 294 conf_mi 295 conf_kap 296 conf_t or Configuration of expansion number computation method; Available options: 1-(option1=ZNG4002:1995), 2- (option2=zng4002:2001); BLOK=ON; Configuration of Dynamic viscosity mi computation method; Available options: 1-(option1=ZNG4002:2001), 2- (option3= ZNG4002:1995); BLOK=ON; Configuration of isentropic exponent kap computation method; Available options: 1-(option1=ZNG4002:2001), 2- (option2= ZNG4002:1995); BLOK=ON; Configuration of orifice plane temperature computation method; Available options: 1-(option1,T1=T2), 2- (option2,5d8d); BLOK=ON; 0 MO ^byte U MO ^byte U MO ^byte U MO ^byte U t or Temperature of orifice plane; 0 'C O ^short 6024> dp range Current operating range of differential pressure transducers; 0 - operation in lower range; 1 - operation in higher range; 0 O ^boolean dp1 Value of differential pressure on dp1 input; 0 mbar O ^short 6027> dp2 Value of differential pressure on dp2 input; 0 mbar O ^short 6029> ALG_PATH 2dp Binary path of 2xdp algorithm execution; 0 O ^dword 6031> STATUS 2dp Binary representation of 2xdp algorithm state; 0 O ^byte dyn dp1 Criterion of step change detection of value on input dp1; Range of programming: 0..1e3; 0 mbar MO ^short U0 6034> dyn dp2 Criterion of step change detection of value on input dp2; Range of programming: 0..1e3; 0 mbar MO ^short U0 6036> n dpl Dead band of dp transducers, when operating in lower range; Range of programming: 0..2%; 0 % MO ^short U0 6038> hyst Hysteresis width of changes in active range of pressure differences transducers; Range of programming: % width value of lower range of pressure difference; 0 % MO ^short U0 6040> N mode Odorizer operation mode; 0 - disabled, 1 - output, 2 - full cascade, 3 - pulse transfer; 0 MO ^byte U SN2-OUT Counter of pulses on the odorizer output (SN2-OUT); Range of programming: 0 imp MO ^dword U0 6043> SN2-IN Counter of pulses on the odorizer input (SN2-IN); Range of programming: 0 imp MO ^dword U0 6045> SN2-OUT factor Odorizer output pulses weight; Range of programming: ; 0 m3/imp MO ^short U0 6047> SN2-IN factor Odorizer input pulses weight; Range of programming: 0, ; 0 m3/imp MO ^short U0 6049> SN2-OUT fmax Maximum frequency of pulses on odorizer output; Range of programming: 1..3; 0 Hz MO ^short U0 6051> SN1-IN mode Configuration of input SN1-IN; 0 - signaling input, 1 - input for auxiliary counter; 0 MO ^byte U SN1-IN factor Weight of pulses on input SN1-IN; Range of programming: 0, ; 0 m3/imp MO ^short U0 6054> SN1-IN Counter of pulses on the auxiliary counter input (SN1-IN); Range of programming: 0 imp MO ^dword U0 6056> Vm SN1-IN Auxiliary gas volume counter at measurement conditions from input SN1-IN; 0 m3 O ^long 6058>...> Vm SN2-IN Auxiliary gas volume counter at measurement conditions from input SN2-IN; 0 m3 O ^long 6062>...> dn Increments of odorized gas; 0 m3 RO ^short Su 6066> dev Gas volume counter intend for odorization; 0 m3 O ^short 6068> dev time 321 Qtr Integral time - parameter, which accelerates and stabilizes distribution of pulses from odorizer, basing on the value of deviation; Range of programming: ; Information from digital transmission about gas volume flow intend for odorization; Range of programming: ; 0 MO ^byte U MO^short U0 6071> dev saturation Saturation of deviation counter; Range of programming: 1..20; 0 MO ^byte U

15 323 S_G0 Internal signaling inputs activity state (S1-S2); 0 O ^byte S_G1 State of external signaling, group 1 (S3-S14); Range of programming: ; 0 MO ^word U S_G2 State of external signaling, group 2 (S15-S26); Range of programming: ; 0 MO ^word U S_G1 act Activity of external signaling, group 1 (S3-S14); 0 O ^word S_G2 act Activity of external signaling, group 2 (S15-S26); 0 O ^word S_G1 pol Polarization of external signaling, group 1 (S3-S14); Range of programming: ; 0 MO ^word U S_G2 pol Polarization of external signaling, group 2 (S15-S26); Range of programming: ; 0 MO ^word U NS1 Signaling S1 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6081>...> NS2 Signaling S2 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6093>...> NS3 Signaling S3 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6105>...> NS4 Signaling S4 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6117>...> NS5 Signaling S5 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6129>...> NS6 Signaling S6 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6141>...> NS7 Signaling S7 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6153>...> NS8 Signaling S8 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6165>...> NS9 Signaling S9 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6177>...> NS10 Signaling S10 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6189>...> NS11 Signaling S11 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6201>...> NS12 Signaling S12 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6213>...> NS13 Signaling S13 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6225>...> NS14 Signaling S14 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6237>...> NS15 Signaling S15 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6249>...> NS16 Signaling S16 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6261>...> NS17 Signaling S17 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6273>...> NS18 Signaling S18 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6285>...> NS19 Signaling S19 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6297>...> NS20 Signaling S20 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6309>...> NS21 Signaling S21 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6321>...> NS22 Signaling S22 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6333>...> NS23 Signaling S23 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6345>...> NS24 Signaling S24 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6357>...> NS25 Signaling S25 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6369>...>

16 355 NS26 Signaling S26 description; Range of programming: string of characters with a length of symbols; 0 MO ^string U1 6381>...> OC Activity state of internal binary outputs; 0 O ^byte DO State of external binary outputs; Range of programming: ; 0 MO ^word U DO act Active binary outputs; 0 O ^word Reserved space 0 ^byte OC1 idx Alarm code, which activates output OC1 - SN1-OUT; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U OC2 idx Alarm code, which activates output OC2 - SN2-OUT; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO1 idx Alarm code, which activates output DO1; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO2 idx Alarm code, which activates output DO2; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO3 idx Alarm code, which activates output DO3; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO4 idx Alarm code, which activates output DO4; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO5 idx Alarm code, which activates output DO5; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO6 idx Alarm code, which activates output DO6; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO7 idx Alarm code, which activates output DO7; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO8 idx Alarm code, which activates output DO8; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO9 idx Alarm code, which activates output DO9; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO10 idx Alarm code, which activates output DO10; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO11 idx Alarm code, which activates output DO11; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO12 idx Alarm code, which activates output DO12; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO13 idx Alarm code, which activates output DO13; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO14 idx Alarm code, which activates output DO14; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO15 idx Alarm code, which activates output DO15; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U DO16 idx Alarm code, which activates output DO16; Range of programming: 0..up to maximum index of ZD table; 0 MO ^byte U dtau Data registration period; Range of programming: integer aliquot of 60; 0 min MO ^word U Billing hour Starting hour of billing day; Range of programming: 0..23; 0 h MO ^byte U Billing day Starting day of billing month; Range of programming: 1..31; 0 d MO ^byte U backlight Time of disabling the display backlight since last operation on device keyboard; Range of programming: ; 0 - constant backlight when device is connected to external power source, backlight is disabled; 0 s MO ^word U auto DST Automatic change of summer/winter time; 0 - automatic change disabled; 1 - automatic change enabled; BLOK=ON; 0 MO ^boolean U conf_subst Binary configuration of p and t substitute values usage; Bit No. 1 - pressure, bit No. 2 - temperature; if value of bit=1 - then use substitute value of p or t; if value of bit=0 - use last properly measured value in measurement range of p or t; 0 MO ^dword U0 6420> p subst 385 t subst 386 alarm ack Substitute value of pressure during system alarm generated by exceeding the measurement range of p; Programming range: DP:145 (p min)..dp:146 (p max); BLOK=ON; Substitute value of temperature during system alarm generated by exceeding the measurement range of t; Programming range: DP:147 (t min)..dp:148 (t max); BLOK=ON; Alarms confirmation configuration; 0 - new alarms don`t require confirmation from device keyboard; 1 - alarms require confirmation; 0 MPa MO ^long U0 6422>...> 'C MO ^long U0 6426>...> MO ^boolean U

17 387 dly SYS 388 dly PROC 389 dly EVT 390 dly COM1 391 dly COM2 392 dly COM3 393 dly COM4 394 dly dp rng 395 dly dp lim 396 dly p rng 397 dly p lim 398 dly t rng 399 dly t lim 400 dly Qm lim Delay in signalization of system alarms; concerns alarms which doesn`t have own delays; Range of programming: 0..20; Delay in signalization of process alarms; concerns alarms which doesn`t have own delays; Range of programming: 0..20; Delay in signalization of continuous events; concerns events which doesn`t have own delays; Range of programming: 0..20; Delay in signalization about loss of connection on port COM1; Range of programming: ; 0 - disables connection control; Delay in signalization about loss of connection on port COM2; Range of programming: ; 0 - disables connection control; Delay in signalization about loss of connection on port COM3; Range of programming: ; 0 - disables connection control; Delay in signalization about loss of connection on port COM4; Range of programming: ; 0 - disables connection control; Delay in generation of alarms about exceeding of Range (min and max) on inputs dp1, dp2 - indexes ; Range of programming: 0..20; Delay in generation of alarms about exceeding of Range (DP:184 (l dp).. DP:185 (u dp)); Range of programming: 0..20; Delay in generation of alarms about exceeding Range of pressure (DP:145 (p min).. DP:146 (p max)); Range of programming: 0..20; Delay in generation of alarms about exceeding p value from Range (DP:186 (l p).. DP:187 (u p)); Range of programming: 0..20; Delay in generation of alarms about exceeding Range of temperature (DP:147 (t min).. DP:148 (t max)); Range of programming: 0..20; Delay in generation of alarms about exceeding t value from Range (DP:188 (l t).. DP:189 (u t)); Range of programming: 0..20; Delay in generation of alarms about exceeding Qm value from Range (DP:182 (l Qm).. DP:183 (u Qm)); Range of programming: 0..20; 0 cycle MO ^byte U cycle MO ^byte U cycle MO ^byte U s MO ^dword U0 6434> s MO ^dword U0 6436> s MO ^dword U0 6438> s MO ^dword U0 6440> cycle MO ^dword U0 6442> cycle MO ^dword U0 6444> cycle MO ^dword U0 6446> cycle MO ^dword U0 6448> cycle MO ^dword U0 6450> cycle MO ^dword U0 6452> cycle MO ^dword U0 6454> dly SUBST Delay in generation of alarms about operating on substitute values of p and t; Range of programming: 0..20; 0 cycle MO ^dword U0 6456> dly SHRCT Delay in generation of alarms about open and short circuits; Range of programming: 0..20; 0 cycle MO ^dword U0 6458> al_ga1 404 al_ga2 405 al_ga3 406 al_ga4 407 al_ga5 408 al_ga6 409 al_gb1 410 al_gb2 Alarms vector that activates ZD:121 (`Collective alarm A`) (alarms 0..31); Range of programming: Alarms vector that activates ZD:121 (`Collective alarm A`) (alarms ); Range of programming: Alarms vector that activates ZD:121 (`Collective alarm A`) (alarms ); Range of programming: Alarms vector that activates ZD:121 (`Collective alarm A`) (alarms ); Range of programming: Alarms vector that activates ZD:121 (`Collective alarm A`) (alarms ); Range of programming: Alarms vector that activates ZD:121 (`Collective alarm A`) (alarms ); Range of programming: Alarms vector that activates ZD:122 (`Collective alarm B`) (alarms 0..31); Range of programming: Alarms vector that activates ZD:122 (`Collective alarm B`) (alarms ); Range of programming: 0 MO ^dword U0 6460> MO ^dword U0 6462> MO ^dword U0 6464> MO ^dword U0 6466> MO ^dword U0 6468> MO ^dword U0 6470> MO ^dword U0 6472> MO ^dword U0 6474>

18 411 al_gb3 412 al_gb4 413 al_gb5 414 al_gb6 415 al_gc1 416 al_gc2 417 al_gc3 418 al_gc4 419 al_gc5 420 al_gc6 421 al_gd1 422 al_gd2 423 al_gd3 424 al_gd4 425 al_gd5 426 al_gd6 427 al_g time Alarms vector that activates ZD:122 (`Collective alarm B`) (alarms ); Range of programming: Alarms vector that activates ZD:122 (`Collective alarm B`) (alarms ); Range of programming: Alarms vector that activates ZD:122 (`Collective alarm B`) (alarms ); Range of programming: Alarms vector that activates ZD:122 (`Collective alarm B`) (alarms ); Range of programming: Alarms vector that activates ZD:123 (`Collective alarm C`) (alarms 0..31); Range of programming: Alarms vector that activates ZD:123 (`Collective alarm C`) (alarms ); Range of programming: Alarms vector that activates ZD:123 (`Collective alarm C`) (alarms ); Range of programming: Alarms vector that activates ZD:123 (`Collective alarm C`) (alarms ); Range of programming: Alarms vector that activates ZD:123 (`Collective alarm C`) (alarms ); Range of programming: Alarms vector that activates ZD:123 (`Collective alarm C`) (alarms ); Range of programming: Alarms vector that activates ZD:124 (`Collective alarm D`) (alarms 0..31); Range of programming: Alarms vector that activates ZD:124 (`Collective alarm D`) (alarms ); Range of programming: Alarms vector that activates ZD:124 (`Collective alarm D`) (alarms ); Range of programming: Alarms vector that activates ZD:124 (`Collective alarm D`) (alarms ); Range of programming: Alarms vector that activates ZD:124 (`Collective alarm D`) (alarms ); Range of programming: Alarms vector that activates ZD:124 (`Collective alarm D`) (alarms ); Range of programming: Duration time of collective alarms (ZD: ); Range of programming: ; 0 - disables the collective alarms time control - alarm is active as long as there will be active at least one of alarms from the control vector; 0 MO ^dword U0 6476> MO ^dword U0 6478> MO ^dword U0 6480> MO ^dword U0 6482> MO ^dword U0 6484> MO ^dword U0 6486> MO ^dword U0 6488> MO ^dword U0 6490> MO ^dword U0 6492> MO ^dword U0 6494> MO ^dword U0 6496> MO ^dword U0 6498> MO ^dword U0 6500> MO ^dword U0 6502> MO ^dword U0 6504> MO ^dword U0 6506> s MO ^word U Index I Index of last registered temporary data; 0 O ^dword 6509> Index R Index of last registered data with registration period; 0 O ^dword 6511> Index D Index of last registered daily data; 0 O ^dword 6513> Index A Index of last registered alarm; 0 O ^dword 6515> Index Am Number of all status changes in alarm list; 0 O ^dword 6517> Alarm 1 Binary representation in activity of alarms within codes: 0..31; 0 O ^dword 6519> Alarm 2 Binary representation in activity of alarms within codes: ; 0 O ^dword 6521> Alarm 3 Binary representation in activity of alarms within codes: ; 0 O ^dword 6523> Alarm 4 Binary representation in activity of alarms within codes: ; 0 O ^dword 6525> Alarm 5 Binary representation in activity of alarms within codes: ; 0 O ^dword 6527> Alarm 6 Binary representation in activity of alarms within codes: ; 0 O ^dword 6529> alfatkg Pulse gas meter housing temperature coefficient; Range of programming: 0..0,0005; BLOK=ON; 0 1/'C MO ^short U0 6531>

19 440 body corr 441 error curve corr Parameter which control temperature correction of pulse gas meter; 1 - correction disabled (option 1); 2 - correction enabled (option 2); Parameter which control correction according to error curve of gas meter; 1 - correction disabled (option 1); 2 - correction enabled (option 2); 0 MO ^byte P MO ^byte U fp 1 Value of gas meter error at point 1; Range of programming: -5..5; BLOK=ON; 0 % MO ^short U0 6535> fp 2 Value of gas meter error at point 2; Range of programming: -5..5; BLOK=ON; 0 % MO ^short U0 6537> fp 3 Value of gas meter error at point 3; Range of programming: -5..5; BLOK=ON; 0 % MO ^short U0 6539> fp 4 Value of gas meter error at point 4; Range of programming: -5..5; BLOK=ON; 0 % MO ^short U0 6541> fp 5 Value of gas meter error at point 5; Range of programming: -5..5; BLOK=ON; 0 % MO ^short U0 6543> fp 6 Value of gas meter error at point 6; Range of programming: -5..5; BLOK=ON; 0 % MO ^short U0 6545> fp 7 Value of gas meter error at point 7; Range of programming: -5..5; BLOK=ON; 0 % MO ^short U0 6547> fp 8 Value of gas meter error at point 8; Range of programming: -5..5; BLOK=ON; 0 % MO ^short U0 6549> fp 9 Value of gas meter error at point 9; Range of programming: -5..5; BLOK=ON; 0 % MO ^short U0 6551> fp 10 Value of gas meter error at point 10; Range of programming: -5..5; BLOK=ON; 0 % MO ^short U0 6553> QP 1 Value of flow in point 1 of gas meter correction function; Range of programming: 0..1e5; BLOK=ON; 0 m3/h MO ^short U0 6555> QP 2 Value of flow in point 2 of gas meter correction function; Range of programming: 0..1e5; BLOK=ON; 0 m3/h MO ^short U0 6557> QP 3 Value of flow in point 3 of gas meter correction function; Range of programming: 0..1e5; BLOK=ON; 0 m3/h MO ^short U0 6559> QP 4 Value of flow in point 4 of gas meter correction function; Range of programming: 0..1e5; BLOK=ON; 0 m3/h MO ^short U0 6561> QP 5 Value of flow in point 5 of gas meter correction function; Range of programming: 0..1e5; BLOK=ON; 0 m3/h MO ^short U0 6563> QP 6 Value of flow in point 6 of gas meter correction function; Range of programming: 0..1e5; BLOK=ON; 0 m3/h MO ^short U0 6565> QP 7 Value of flow in point 7 of gas meter correction function; Range of programming: 0..1e5; BLOK=ON; 0 m3/h MO ^short U0 6567> QP 8 Value of flow in point 8 of gas meter correction function; Range of programming: 0..1e5; BLOK=ON; 0 m3/h MO ^short U0 6569> QP 9 Value of flow in point 9 of gas meter correction function; Range of programming: 0..1e5; BLOK=ON; 0 m3/h MO ^short U0 6571> QP 10 Value of flow in point 10 of gas meter correction function; Range of programming: 0..1e5; BLOK=ON; 0 m3/h MO ^short U0 6573> F(Q) Value of gas meter correction function; 0 O ^short 6575> Vb N Uncorrected counter of volume at base conditions; 0 m3 O ^long 6577>...> Vc Counter of volume at measurement conditions after correction from temperature expansion of gas meter housing and error curve of the gas meter; First - temperature expansion is taken into account, second - correction; 0 m3 RO ^long Mo 6581>...> Vk N Uncorrected counter of volume at contractual conditions; 0 m3 O ^long 6585>...> E N Uncorrected counter of energy; 0 kwh O ^long 6589>...> M N Uncorrected counter of mass; 0 kg O ^long 6593>...> Qb N Uncorrected flow of volume at base conditions; 0 m3/h O ^short 6597> Qm N Uncorrected flow of volume at measurement conditions; 0 m3/h O ^short 6599>

20 470 Qk N Uncorrected flow of volume at contractual conditions; 0 m3/h O ^short 6601> QE N Uncorrected flow of energy; 0 kw O ^short 6603> QM N Uncorrected flow of mass; 0 kg/h O ^short 6605> cal Parameter, which control the switching of calibration mode of measurement circuits; 0 - calibration disabled; 1 - enabled; 0 MO ^boolean U Vb cal Calibration counter of volume at base conditions, incrementing during calibration mode; 0 m3 O ^long 6608>...> Vm cal Calibration counter of volume at measurement conditions, incrementing during calibration mode; 0 m3 O ^long 6612>...> Vk cal Calibration counter of volume at contractual conditions, incrementing during calibration mode; 0 m3 O ^long 6616>...> E cal Calibration counter of energy, incrementing during calibration mode; 0 kwh O ^long 6620>...> last idx Index of last modified parameter; 0 O ^word last v1 Value of parameter before modification; 0 O ^long 6625>...> last v2 Value of parameter after modification; 0 O ^long 6629>...> Account Account number of user, which performed last modification of device parameter; 0 O ^dword 6633> lock MET 483 lock CFG 484 dtime NTP State of metrological lock of parameters. 0 - lock disabled, 1 - enabled. When enabled, lock secures all modifiable parameters from DP table marked with `MET`. This parameter can be configured only by manufacturer; State of hardware interlock. 0 - lock disabled, 1 - enabled. When enabled, lock secures all modifiable parameters from DP table marked with `BLOK=ON`; Difference between reference clock and internal clock of the device; If positive - internal clock is running too fast, if negative - internal clock running too slow; 0 O ^boolean O ^boolean ms O ^short 6637> ms_beg Milliseconds of event beginning; 0 ms O ^word ms_end Milliseconds of event ending; 0 ms O ^word dt/tm Current date and time; 0 O ^string 6641>...> Device name The name of the device; 0 O ^string 6653>...> Device s/n Serial number of the device; 0 O ^string 6665>...> SV Software series and version; 0 O ^string 6677>...> HV Hardware version; 0 O ^string 6689>...> vdp Number of table with available parameters (DP table); 0 O ^string 6701>...> vzd Number of table with events (ZD table); 0 O ^string 6713>...> dt_comp Date of software compilation; 0 O ^string 6725>...> tm_comp Time of software compilation; 0 O ^string 6737>...> Device typen Type of device; 0 O ^string 6749>...> conf_impn Configuration of device pulse inputs - text format; 0 O ^string 6761>...> conf_imp Configuration of device pulse inputs - numeric format; 1 - LF, 2 - LF/HF1, 3 - HF1/HF2; 0 MO ^byte U t int Internal temperature of device; 0 'C RO ^short Mo 6774> max reg Maximum horizon available for data registration; 0 d O ^word i1 Current on input 1 (current of input p in device GT and KR); 0 ma O ^short 6777>

21 502 i2 Current on input 2 (current of input t in device GT and KR); 0 ma O ^short 6779> i3 Current on input 3 (current of input RA in device GT or current of input dp1 in device KR); 0 ma O ^short 6781> i4 Current on input 4 (current of input RB in device GT or current of input dp2 in device KR); 0 ma O ^short 6783> i5 Current on input 5 (current of input R1); 0 ma O ^short 6785> i6 Current on input 6 (current of input R2); 0 ma O ^short 6787> i7 Current on input 7 (current of input R3); 0 ma O ^short 6789> i8 Current on input 8 (current of input R4); 0 ma O ^short 6791> i9 Current on input 9 (current of input R5); 0 ma O ^short 6793> i10 Current on input 10 (current of input R6); 0 ma O ^short 6795> i11 Current on input 11 (current of input R7); 0 ma O ^short 6797> i12 Current on input 12 (current of input R8); 0 ma O ^short 6799> U1 Voltage value on voltage input 1 (RU1); 0 V O ^short 6801> U2 Voltage value on voltage input 2 (RU2); 0 V O ^short 6803> U3 Voltage value on voltage input 3 (RU3); 0 V O ^short 6805> U4 Voltage value on voltage input 4 (RU4); 0 V O ^short 6807> i1_in Value recalculated from current on input i1; 0 O ^short 6809> i2_in Value recalculated from current on input i2; 0 O ^short 6811> i3_in Value recalculated from current on input i3; 0 O ^short 6813> i4_in Value recalculated from current on input i4; 0 O ^short 6815> HART1 Value readout from module HART1; 0 O ^short 6817> HART2 Value readout from module HART2; 0 O ^short 6819> HART3 Value readout from module HART3; 0 O ^short 6821> HART4 Value readout from module HART4; 0 O ^short 6823> HART1_unit Unit of value HART1 readout from transducer; 0 O ^string 6825>...> HART1_min Value of minimum of transducer range on channel HART1; 0 O ^short 6837> HART1_max Value of maximum of transducer range on channel HART1; 0 O ^short 6839> HART1_serial Serial number of transducer, readout from transducer on channel HART1; 0 O ^string 6841>...> HART1_i Value of current readout from module HART1; 0 O ^short 6853> HART2_unit Unit of value HART2 readout from transducer; 0 O ^string 6855>...> HART2_min Value of minimum of transducer range on channel HART2; 0 O ^short 6867> HART2_max Value of maximum of transducer range on channel HART2; 0 O ^short 6869> HART2_serial Serial number of transducer, readout from transducer on channel HART2; 0 O ^string 6871>...> HART2_i Value of current readout from module HART2; 0 O ^short 6883> HART3_unit Unit of value HART3 readout from transducer; 0 O ^string 6885>...>

22 536 HART3_min Value of minimum of transducer range on channel HART3; 0 O ^short 6897> HART3_max Value of maximum of transducer range on channel HART3; 0 O ^short 6899> HART3_serial Serial number of transducer, readout from transducer on channel HART3; 0 O ^string 6901>...> HART3_i Value of current readout from module HART3; 0 O ^short 6913> HART4_unit Unit of value HART4 readout from transducer; 0 O ^string 6915>...> HART4_min Value of minimum of transducer range on channel HART4; 0 O ^short 6927> HART4_max Value of maximum of transducer range on channel HART4; 0 O ^short 6929> HART4_serial Serial number of transducer, readout from transducer on channel HART4; 0 O ^string 6931>...> HART4_i Value of current readout from module HART4; 0 O ^short 6943> i1_i2 mode Operation mode of inputs i1 and i2: 0 - current only, 1 - combined (current + HART), 2 - HART only; 0 MO ^byte U i3_i4 mode Operation mode of inputs i3 and i4: 0 - current only, 1 - combined (current + HART), 2 - HART only; 0 MO ^byte U src i1 In combined mode - select source of value for calculations: 0 - current, 1 - HART; 0 MO ^boolean U src i2 In combined mode - select source of value for calculations: 0 - current, 1 - HART; 0 MO ^boolean U src i3 In combined mode - select source of value for calculations: 0 - current, 1 - HART; 0 MO ^boolean U src i4 In combined mode - select source of value for calculations: 0 - current, 1 - HART; 0 MO ^boolean U LF State of counter LF; 0 imp O ^word HF1 State of counter HF1; 0 imp O ^word HF2 State of counter HF2; 0 imp O ^word HF1/LF Current ratio of pulses HF1 increments per pulses LF, parameter used for controlling of alarm ZD:65 (`HF1/LF limit`); 0 O ^short 6954> LF time The time between successive pulses at the LF input; 0 s O ^short 6956> fhf1 Frequency of pulses on HF1 input; 0 Hz CO ^short 6958> fhf2 Frequency of pulses on HF2 input; 0 Hz CO ^short 6960> s HF1 559 s HF2 Auxiliary increments of HF1 pulses control counter, parameter used for controlling of alarm ZD:69 (`HF1-HF2 limit`); Auxiliary increments of HF2 pulses control counter, parameter used for controlling of alarm ZD:69 (`HF1-HF2 limit`); 0 imp O ^dword 6962> imp O ^dword 6964> batt test Battery test procedure switch; 0 - test is disabled; 1 - test is running; 0 MO ^boolean U ETL Estimated time of running on rechargeable battery; 0 min O ^word V_batt Voltage of rechargeable battery; 0 V RO ^short Mo 6968> T1_batt Temperature T1 of rechargeable battery; 0 'C RO ^short Mo 6970> T2_batt Temperature T2 of rechargeable battery; 0 'C RO ^short Mo 6972> I_batt Current drained from rechargeable battery; 0 ma RO ^short Av 6974> State_batt Binary vector of rechargeable battery operation state; 0 RO ^dword Mo 6976> Q_batt Charge status of rechargeable battery; 0 % RO ^short Mo 6978> Qb peak max Maximum value of flow at base conditions during registration period; 0 m3/h RO ^short Mo 6980>

23 569 p peak min Minimum value of pressure during registration period; 0 MPa O ^long 6982>...> p peak max Maximum value of pressure during registration period; 0 MPa O ^long 6986>...> dvbd 572 dvkd 573 ded Increments of volume on gas meter at base conditions during period of current billing day (summary increments of main counter DP:0 (Vb) and emergency counter DP:6 (Vbe)); Increments of volume on gas meter at contractual conditions during period of current billing day (summary increments of main counter DP:3 (Vk) and emergency counter DP:7 (Vke)); Increments of energy on gas meter during period of current billing day (summary increments of main counter DP:4 (E) and emergency counter DP:8 (Ee)); 0 m3 DO ^long 6990>...> m3 DO ^long 6994>...> kwh DO ^long 6998>...> dvbd last Increments of volume on gas meter at base conditions during period of last billing day; 0 m3 O ^long 7002>...> dvkd last Increments of volume on gas meter at contractual conditions during period of last billing day; 0 m3 O ^long 7006>...> ded last Increments of energy on gas meter during period of last billing day; 0 kwh O ^long 7010>...> SYS1 System parameter; 0 O ^long 7014>...> SYS2 System parameter; 0 O ^long 7018>...> Device type Type of device - numeric format; 0 - pulse, 3 - mass; 0 O ^dword 7022> Reserved space 0 ^word lim hysteresis Hysteresis of alarms generation from exceeding of measurement limits; Range of programming: 0..1; (by default 0,5); 0 % MO ^short U0 7025> QmI Flow of volume at measurement conditions, obtained from any, properly operating pulse input HF1, HF2, LF; 0 m3/h O ^long 7027>...> dly PULSE 584 sys alarm status Delay of generation of alarm ZD:149 (`Loss of pulse signal`); Range of programming: ; Default value: 15; Value 0 disables control and closes alarm `Loss of pulse signal`; 0 s MO ^word U Service parameter; 0 O ^dword 7032> iz1 Value of current to set on output after choosing the controlling parameter "iz1"; Range of programming: 4..20; 0 ma MO ^short U0 7034> iz2 Value of current to set on output after choosing the controlling parameter "iz2"; Range of programming: 4..20; 0 ma MO ^short U0 7036> iz3 Value of current to set on output after choosing the controlling parameter "iz3"; Range of programming: 4..20; 0 ma MO ^short U0 7038> io1 Value of current on the current output 1; 0 ma O ^short 7040> io1 idx Index of parameter, which control the current output 1; Range of programming: 0.. up to maximum index of DP table; 0 MO ^word U io1 min Scaling of current output 1 - min; Range of programming: -1e3..5e6; 0 MO ^short U0 7043> io1 max Scaling of current output 1 - max; Range of programming: -1e3..5e6; 0 MO ^short U0 7045> io2 Value of current on the current output 2; 0 ma O ^short 7047> io2 idx Index of parameter, which control the current output 2; Range of programming: 0.. up to maximum index of DP table; 0 MO ^word U io2 min Scaling of current output 2 - min; Range of programming: -1e3..5e6; 0 MO ^short U0 7050> io2 max Scaling of current output 2 - max; Range of programming: -1e3..5e6; 0 MO ^short U0 7052> io3 Value of current on the current output 3; 0 ma O ^short 7054> io3 idx Index of parameter, which control the current output 3; Range of programming: 0.. up to maximum index of DP table; 0 MO ^word U io3 min Scaling of current output 3 - min; Range of programming: -1e3..5e6; 0 MO ^short U0 7057> io3 max Scaling of current output 3 - max; Range of programming: -1e3..5e6; 0 MO ^short U0 7059>

24 600 io4 Value of current on the current output 4; 0 ma O ^short 7061> io4 idx Index of parameter, which control the current output 4; Range of programming: 0.. up to maximum index of DP table; 0 MO ^word U io4 min Scaling of current output 4 - min; Range of programming: -1e3..5e6; 0 MO ^short U0 7064> io4 max Scaling of current output 4 - max; Range of programming: -1e3..5e6; 0 MO ^short U0 7066> io5 Value of current on the current output 5; 0 ma O ^short 7068> io5 idx Index of parameter, which control the current output 5; Range of programming: 0.. up to maximum index of DP table; 0 MO ^word U io5 min Scaling of current output 5 - min; Range of programming: -1e3..5e6; 0 MO ^short U0 7071> io5 max Scaling of current output 5 - max; Range of programming: -1e3..5e6; 0 MO ^short U0 7073> io6 Value of current on the current output 6; 0 ma O ^short 7075> io6 idx Index of parameter, which control the current output 6; Range of programming: 0.. up to maximum index of DP table; 0 MO ^word U io6 min Scaling of current output 6 - min; Range of programming: -1e3..5e6; 0 MO ^short U0 7078> io6 max Scaling of current output 6 - max; Range of programming: -1e3..5e6; 0 MO ^short U0 7080> io7 Value of current on the current output 7; 0 ma O ^short 7082> io7 idx Index of parameter, which control the current output 7; Range of programming: 0.. up to maximum index of DP table; 0 MO ^word U io7 min Scaling of current output 7 - min; Range of programming: -1e3..5e6; 0 MO ^short U0 7085> io7 max Scaling of current output 7 - max; Range of programming: -1e3..5e6; 0 MO ^short U0 7087> io8 Value of current on the current output 8; 0 ma O ^short 7089> io8 idx Index of parameter, which control the current output 8; Range of programming: 0.. up to maximum index of DP table; 0 MO ^word U io8 min Scaling of current output 8 - min; Range of programming: -1e3..5e6; 0 MO ^short U0 7092> io8 max Scaling of current output 8 - max; Range of programming: -1e3..5e6; 0 MO ^short U0 7094> io9 Value of current on the current output 9; 0 ma O ^short 7096> io9 idx Index of parameter, which control the current output 9; Range of programming: 0.. up to maximum index of DP table; 0 MO ^word U io9 min Scaling of current output 9 - min; Range of programming: -1e3..5e6; 0 MO ^short U0 7099> io9 max Scaling of current output 9 - max; Range of programming: -1e3..5e6; 0 MO ^short U0 7101> VbR Reverse counter of gas volume at base conditions; 0 m3 RO ^long Mo 7103>...> VmR Reverse counter of gas volume at measurement conditions; Range of programming: 0..1e11; 0 m3 MO ^long U0 7107>...> VkR Reverse counter of gas volume at contractual conditions; 0 m3 O ^long 7111>...> ER Reverse counter of energy; 0 kwh RO ^long Mo 7115>...> MR Reverse counter of mass; 0 kg RO ^long Mo 7119>...> VbRe Reverse, emergency counter of gas volume at base conditions; 0 m3 RO ^long Mo 7123>...> Reserved space 0 ^long 7127>...> VkRe Reverse, emergency counter of gas volume at contractual conditions; 0 m3 O ^long 7131>...> ERe Reverse, emergency counter of energy; 0 kwh RO ^long Mo 7135>...> MRe Reverse, emergency counter of mass; 0 kg RO ^long Mo 7139>...>

25 634 Flow direction Direction of flow; 0 - forward/no flow, 1 - reverse; 0 O ^byte V3 Control counter (auxiliary) at measurement conditions, calculated basing on ModBUS readout of gas meter ULTRA; Range of programming: 0..1e11; dv3=(dfv+dfve); 0 m3 MO ^long U0 7144>...> Fv `Forward` volume counter in ULTRA gas meter, readout directly from gas meter; 0 m3 O ^long 7148>...> Rv `Reverse` volume counter in ULTRA gas meter, readout directly from gas meter; 0 m3 O ^long 7152>...> Fve Emergency `forward` volume counter in ULTRA gas meter, readout directly from gas meter; 0 m3 O ^long 7156>...> Rve Emergency `reverse` volume counter in ULTRA gas meter, readout directly from gas meter; 0 m3 O ^long 7160>...> ModBUS Frame Counter Service parameter; 0 O ^word Meter status Status of ULTRA gas meter, readout digitally, directly from gas meter; 0 O ^dword 7165> QmU Flow of gas at measurement conditions, readout digitally, directly from ULTRA gas meter; 0 m3/h O ^short 7167> ModelU Service parameter (40:ES, 41:QS, 42:FS, 43:US); 0 O ^byte AGV_U Average speed of gas readout from gas meter; 0 m/s O ^short 7170> Fault input Hardware activity of device input "Alarm" (0 - no alarm, 1 - active alarm from gas meter); 0 O ^byte Fault st 647 Warn st Status of emergency gas meter ULTRA, readout digitally, directly from gas meter (0 - OK, 1 - malfunction of gas meter); Warning status of gas meter ULTRA, readout digitally, directly from gas meter (0 - OK, 1 - state of gas meter requiring intervention of service); 0 O ^word O ^word Path st Collective status of measuring circuits; 0 O ^byte Status A Status of measuring circuit No.1 (A) readout directly from gas meter; 0 O ^word Status B Status of measuring circuit No.2 (B) readout directly from gas meter; 0 O ^word Status C Status of measuring circuit No.3 (C) readout directly from gas meter; 0 O ^word Status D Status of measuring circuit No.4 (D) readout directly from gas meter; 0 O ^word Status E Status of measuring circuit No.5 (E) readout directly from gas meter; 0 O ^word Status F Status of measuring circuit No.6 (F) readout directly from gas meter; 0 O ^word Status G Status of measuring circuit No.7 (G) readout directly from gas meter; 0 O ^word Status H Status of measuring circuit No.8 (H) readout directly from gas meter; 0 O ^word fo select Service parameter; 0 O ^byte fo error mode Service parameter; 0 O ^byte pulse_value_u Number of output pulses HF per 1m3 of gas - readout directly from gas meter; 0 imp/m3 O ^short 7186> DO_1 mode Configuration of binary output 1 in gas meter; 0 O ^byte DO_2 mode Configuration of binary output 2 in gas meter; 0 O ^byte U s/n Serial number of ultrasonic gas meter; 0 O ^string 7190>...> SV U Software version of ultrasonic gas meter; 0 O ^string 7202>...> U address Address of ModBUS transmission with ultrasonic gas meter; Range of programming: ; 0 MO ^word U U baudrate ModBUS transmission speed with ultrasonic gas meter; Available options: 9600, 19200, 38400, 57600, ; 0 bps MO ^dword U0 7215> U parity Control of parity in ModBUS transmission with ultrasonic gas meter. Available options: 0 - None, 1 - Odd, 2 - Even; 0 MO ^byte U

26 667 U stopbits Stop bits in ModBUS transmission with ultrasonic gas meter; Available options: 0 - one stop bit, 1 - two stop bits; 0 MO ^byte U Fvc State of `forward` volume counter in ULTRA gas meter at the moment of closing of alarms related with gas meter; 0 m3 O ^long 7219>...> Fvce 670 dly NONE_U 671 dly ERR_U 672 dly ATT_U 673 dly r.qm State of emergency, `forward` volume counter in ULTRA gas meter at the moment of closing of alarms related with gas meter; Delay of generating the alarm ZD:150 (`No ULTRA GasMeter`); Range of programming: ; Default value: 10; 0 - disables control and closes alarm `No ULTRA GasMeter`; Delay of generating the alarm ZD:151 (`ULTRA GasMeter error`); Range of programming: ; Default value: 3; 0 - disables control and closes alarm `ULTRA GasMeter error`; Delay of generating the alarm ZD:152 (`ULTRA service req.`); Range of programming: ; Default value: 10; 0 - disables control and closes alarm `ULTRA service req.`; Delay of generating the alarm ZD:154 (`QmI-QmU limit`); Range of programming: ; Default value: 10; 0 - disables control and closes alarm `QmI-QmU limit`; 0 m3 O ^long 7223>...> s MO ^word U s MO ^word U s MO ^word U cycle MO ^word U s Vm Auxiliary increments of counter Vm used for generating the alarm ZD:153 (`ULTRA Vm-V3 limit`); 0 m3 O ^short 7231> s V3 Auxiliary increments of counter V3 used for generating the alarm ZD:153 (`ULTRA Vm-V3 limit`); 0 m3 O ^short 7233> l Vm-V3 677 t Vm-V3 678 t QmI-QmU Comparison horizon of volume increments in counters Vm and V3; Range of programming: ; Default value: 0; 0 - disables control and closes alarm ZD:153 (`ULTRA Vm-V3 limit`); Allowed discrepancy of volume increments in counter Vm and V3 - exceeding this values will generate the alarm ZD:153 (`ULTRA Vm-V3 limit`); Range of programming: ; Allowed discrepancy of flows QmI and QmU in `forward` direction of flow - exceeding this value will generate the alarm ZD:154 (`QmI-QmU limit`); Range of programming: ; 0 - disables control and closes alarm `QmI-QmU limit`; 0 m3 MO ^short U0 7235> m3 MO ^short U0 7237> m3/h MO ^short U0 7239> Hs_MA Superior calorific value on mass basis; Range of programming: ; 0 MJ/kg MO ^short U0 7241> QM_MA Flow of mass readout from mass meter; 0 kg/h O ^short 7243> rob_ma Density readout from mass meter; 0 kg/m3 O ^short 7245> t_ma Temperature readout from mass meter; 0 'C O ^long 7247>...> QV_MA Flow of volume readout from mass meter; 0 m3/h O ^short 7251> M_MA Mass counter readout from mass meter; 0 kg O ^long 7253>...> V_MA Volume counter readout from mass meter; 0 m3 O ^long 7257>...> Mi_MA Mass inventory readout from mass meter; 0 kg O ^long 7261>...> Vi_MA Volume inventory readout from mass meter; 0 m3 O ^long 7265>...> Ext t Value of external input temperature; 0 'C O ^short 7269> Ext p Value of external input pressure; 0 bar O ^short 7271> f_ma Frequency on mass meter output; 0 Hz O ^short 7273> Status M1 Status of register 419 in mass meter; 0 O ^word Status M2 Status of register 420 in mass meter; 0 O ^word Status M3 Status of register 421 in mass meter; 0 O ^word Status M4 Status of register 422 in mass meter; 0 O ^word Status M5 Status of register 423 in mass meter; 0 O ^word Status M6 Status of register 424 in mass meter; 0 O ^word Status M7 Status of register 433 in mass meter; 0 O ^word

27 698 p src Source of pressure used for computations; 0 - disabled, 1 - from transducer connected to MacMAT IV; 0 MO ^byte U t src Source of temperature used for computations; 0 - disabled, 1 - from transducer connected to MacMAT IV, 2 - internal temperature of mass meter (t_ma); 0 MO ^byte U MA mode Cooperation mode of mass meter with MacMAT IV; 0 - HF1+HF2, 1 - HF1+HF2+RS485, 2 - HF1+RS485; 0 MO ^byte U s M Auxiliary increments of counter M used for generation of the alarm ZD:168 (`M-M_MA limit`); 0 kg O ^short 7285> s M_MA Auxiliary increments of counter M_MA used for generation of the alarm ZD:168 (`M-M_MA limit`); 0 kg O ^short 7287> l M-M_MA 704 t M-M_MA 705 dly NONE_MA 706 dly ERR_MA 707 dly ATT_MA Comparison horizon of mass increments on counters M and M_MA; Range of programming: ; Default value: 0; 0 - disable control and closes alarm ZD:168 (`M-M_MA limit`); Allowed discrepancy of mass increments in counters M and M_MA - exceeding this value will generate alarm ZD:168 (`M-M_MA limit`); Range of programming: ; Delay of generating the alarm ZD:165 (`No MASS Meter`); Range of programming: ; Default value: 10; 0 - disables control and closes alarm `No MASS Meter`; Delay of generating the alarm ZD:166 (`MASS Meter error`); Range of programming: ; Default value: 3; 0 - disables control and closes alarm `MASS Meter error`; Delay of generating the alarm ZD:167 (`MASS service req.`); Range of programming: ; Default value: 10; 0 - disables control and closes alarm `MASS service req.`; 0 kg MO ^short U0 7289> kg MO ^short U0 7291> s MO ^word U s MO ^word U s MO ^word U counters mode Operation mode of mass and volume counters: 0-32 bit, 1-64 bit; 0 MO ^byte U alpha_ma Process pressure effect (percentage value). 0 disables function of pressure compensation of mass flow. Range of programming: -1..1; 0 % MO ^short U0 7297> MA type Type of mass meter; 0 O ^string 7299>...> MA s/n Serial number of mass meter; 0 O ^string 7311>...> SV MA Mass meter program revision; 0 O ^string 7323>...> MA address ModBUS transmission address of mass meter; Range of programming: ; 0 MO ^word U MA baudrate ModBUS transmission speed with mass meter; Available options: 1200, 2400, 4800, 9600, 19200, 38400; 0 bps MO ^dword U0 7336> MA parity Control of parity in ModBUS transmission with mass meter. Available options: 0 - None, 1 - Odd, 2 - Even; 0 MO ^byte U MA stopbits Stop bits in ModBUS transmission with mass meter; Available options: 0 - one stop bit, 1 - two stop bits; 0 MO ^byte U m1 address Address of module 1; 0 O ^word m1 type Type of module 1; 0 O ^string 7341>...> m1 ID Version of module 1; 0 O ^string 7353>...> m1 err Service parameter; 0 O ^dword 7365> m2 address Address of module 2; 0 O ^word m2 type Type of module 2; 0 O ^string 7368>...> m2 ID Version of module 2; 0 O ^string 7380>...> m2 err Service parameter; 0 O ^dword 7392> m3 address Address of module 3; 0 O ^word m3 type Type of module 3; 0 O ^string 7395>...> m3 ID Version of module 3; 0 O ^string 7407>...> m3 err Service parameter; 0 O ^dword 7419> m4 address Address of module 4; 0 O ^word

28 730 m4 type Type of module 4; 0 O ^string 7422>...> m4 ID Version of module 4; 0 O ^string 7434>...> m4 err Service parameter; 0 O ^dword 7446> m5 address Address of module 5; 0 O ^word m5 type Type of module 5; 0 O ^string 7449>...> m5 ID Version of module 5; 0 O ^string 7461>...> m5 err Service parameter; 0 O ^dword 7473> m6 address Address of module 6; 0 O ^word m6 type Type of module 6; 0 O ^string 7476>...> m6 ID Version of module 6; 0 O ^string 7488>...> m6 err Service parameter; 0 O ^dword 7500> m7 address Address of module 7; 0 O ^word m7 type Type of module 7; 0 O ^string 7503>...> m7 ID Version of module 7; 0 O ^string 7515>...> m7 err Service parameter; 0 O ^dword 7527> m8 address Address of module 8; 0 O ^word m8 type Type of module 8; 0 O ^string 7530>...> m8 ID Version of module 8; 0 O ^string 7542>...> m8 err Service parameter; 0 O ^dword 7554> m9 address Address of module 9; 0 O ^word m9 type Type of module 9; 0 O ^string 7557>...> m9 ID Version of module 9; 0 O ^string 7569>...> m9 err Service parameter; 0 O ^dword 7581> m10 address Address of module 10; 0 O ^word m10 type Type of module 10; 0 O ^string 7584>...> m10 ID Version of module 10; 0 O ^string 7596>...> m10 err Service parameter; 0 O ^dword 7608> m11 address Address of module 11; 0 O ^word m11 type Type of module 11; 0 O ^string 7611>...> m11 ID Version of module 11; 0 O ^string 7623>...> m11 err Service parameter; 0 O ^dword 7635> m12 address Address of module 12; 0 O ^word m12 type Type of module 12; 0 O ^string 7638>...>

29 763 m12 ID Version of module 12; 0 O ^string 7650>...> m12 err Service parameter; 0 O ^dword 7662> COM1 baudrate Speed of transmission of port COM1; Available options: 1200, 2400, 4800, 9600, 19200, 38400, 57600, ; 0 bps MO ^dword U0 7664> COM1 address Transmission address at port COM1; Range of programming: ; 0 MO ^word U COM2 baudrate Speed of transmission of port COM2; Available options: 1200, 2400, 4800, 9600, 19200, 38400, 57600, ; 0 bps MO ^dword U0 7667> COM2 address Transmission address at port COM2; Range of programming: ; 0 MO ^word U COM3 baudrate Speed of transmission of port COM3; Available options: 1200, 2400, 4800, 9600, 19200, 38400, 57600, ; 0 bps MO ^dword U0 7670> COM3 address Transmission address at port COM3; Range of programming: ; 0 MO ^word U COM4 baudrate Speed of transmission of port COM4; Available options: 1200, 2400, 4800, 9600, 19200, 38400, 57600, ; 0 bps MO ^dword U0 7673> COM4 address Transmission address at port COM4; Range of programming: ; 0 MO ^word U OPTO baudrate Speed of transmission of port OPTO-GAZ; Available options: 1200, 2400, 4800, 9600, 19200, 38400, 57600, ; 0 bps MO ^dword U0 7676> OPTO address Transmission address at port OPTO-GAZ; Range of programming: ; 0 MO ^word U IP address IP address of LAN port; format: xxx.xxx.xxx.xxx; 0 MO ^string U0 7679>...> Subnet mask Subnetwork mask; format: xxx.xxx.xxx.xxx; 0 MO ^string U0 7691>...> Gateway Gateway Address; format: xxx.xxx.xxx.xxx; 0 MO ^string U0 7703>...> DNS 1 Address of the first DNS server; format: xxx.xxx.xxx.xxx; 0 MO ^string U0 7715>...> DNS 2 Address of the second DNS server; format: xxx.xxx.xxx.xxx; 0 MO ^string U0 7727>...> IP DHCP IP address of LAN port obtained from DHCP; format: xxx.xxx.xxx.xxx; 0 O ^string 7739>...> Subnet DHCP Subnetwork mask obtained from DHCP; format: xxx.xxx.xxx.xxx; 0 O ^string 7751>...> Gateway DHCP Gateway Address obtained from DHCP; format: xxx.xxx.xxx.xxx; 0 O ^string 7763>...> DNS 1 DHCP Address of the first DNS server obtained from DHCP; format: xxx.xxx.xxx.xxx; 0 O ^string 7775>...> DNS 2 DHCP Address of the second DNS server obtained from DHCP; format: xxx.xxx.xxx.xxx; 0 O ^string 7787>...> MAC 1 MAC address of device saved by producer; 0 O ^string 7799>...> MAC 2 MAC address of device saved by user; format: xx:xx:xx:xx:xx:xx; Leaving all values as zeroes disables this function; 0 MO ^string U0 7811>...> WWW port Network port of web interface; Range of programming: ; 0 MO ^word U GM port Network port of Gaz-MODEM and ModBUS TCP; Range of programming: ; 0 MO ^word U DHCP mode DHCP mode setting; 0 - manual configuration, based on given addresses (parameters: ); 1 - configuration obtained from DHCP server (parameters: ); 0 MO ^boolean U DHCP timeout Timeout on DHCP server; 0 - limit off; Range of programming: ; 0 s MO ^word U Reserved space 0 ^boolean alarm level i1 Current threshold, beyond which device will generate alarm related to transducer connected to input i1. If value of current will be above upper range or lower range an alarm will be generated. Ranges of programming: 3,4..3,8 or 0 ma MO ^short U0 7828> ,2..23; 793 alarm level i2 Current threshold, beyond which device will generate alarm related to transducer connected to input i2. If value of current will be above upper range or lower range an alarm will be generated. Ranges of programming: 3,4..3,8 or 0 ma MO ^short U0 7830> ,2..23; 794 alarm level i3 Current threshold, beyond which device will generate alarm related to transducer connected to input i3. If value of current will be above upper range or lower range an alarm will be generated. Ranges of programming: 3,4..3,8 or 0 ma MO ^short U0 7832>

30 795 alarm level i4 20,2..23; Current threshold, beyond which device will generate alarm related to transducer connected to input i4. If value of current will be above upper range or lower range an alarm will be generated. Ranges of programming: 3,4..3,8 or 20,2..23; 0 ma MO ^short U0 7834> USER-0 pass. Password of user USER-0; Range of programming: ; 0 MO ^string U0 7836>...> USER-1 pass. Password of user USER-1; Range of programming: ; 0 MO ^string U1 7848>...> AlarmLOG The filling level of memory of unconfirmed alarms. This parameter is also used for they clearing (0 - clears all alarms); 0 % MO ^short U0 7860> hardware_state Service parameter; 0 O ^dword 7862> i1 a Correction coefficient `a` (directional coefficient) of two-point calibration for input 1; Range of programming: ; MET; BLOK=ON; 0 MO ^long M/U0 7864>...> i1 b Correction coefficient `b` (shift factor) of two-point calibration for input 1; Range of programming: ; MET; BLOK=ON; 0 MO ^long M/U0 7868>...> i2 a Correction coefficient `a` (directional coefficient) of two-point calibration for input 2; Range of programming: ; MET; BLOK=ON; 0 MO ^long M/U0 7872>...> i2 b Correction coefficient `b` (shift factor) of two-point calibration for input 2; Range of programming: ; MET; BLOK=ON; 0 MO ^long M/U0 7876>...> i3 a Correction coefficient `a` (directional coefficient) of two-point calibration for input 3; Range of programming: ; MET; BLOK=ON; 0 MO ^long M/U0 7880>...> i3 b Correction coefficient `b` (shift factor) of two-point calibration for input 3; Range of programming: ; MET; BLOK=ON; 0 MO ^long M/U0 7884>...> i4 a Correction coefficient `a` (directional coefficient) of two-point calibration for input 4; Range of programming: ; MET; BLOK=ON; 0 MO ^long M/U0 7888>...> i4 b Correction coefficient `b` (shift factor) of two-point calibration for input 4; Range of programming: ; MET; BLOK=ON; 0 MO ^long M/U0 7892>...> Reserved space 0 ^long 7896>...> Reserved space 0 ^long 7900>...> Reserved space 0 ^long 7904>...> Reserved space 0 ^long 7908>...> Reserved space 0 ^long 7912>...> Reserved space 0 ^long 7916>...> Reserved space 0 ^long 7920>...> Reserved space 0 ^long 7924>...> Reserved space 0 ^long 7928>...> Reserved space 0 ^long 7932>...> Reserved space 0 ^long 7936>...> Reserved space 0 ^long 7940>...> conf_imp_prop Pulse input configuration (value `0` of bit - NAMUR input, value `1` - OC input), bit0 - reserved (always 1), bit1 - LF input, bit2 - HF1 input, bit3 - HF2 input, rest of values are reserved (always 0); 0 MO ^byte U conf_language Language choice (0 - Polish, 1 - English (GB)); 0 MO ^byte n.a dly HART Delay in signalization events of HART communication errors; Range of programming: ; 0 cycle MO ^dword U0 7946> lock FW State of software update interlock. 0 - lock disabled, 1 - enabled; MET; BLOK=ON; 0 MO ^boolean S F_O Parameter activating SN1-OUT output to work as frequency output; 0 - SN1-OUT as digital output, 1 - SN1-OUT as frequency output; 0 MO ^boolean U F_O_idx Index of parameter controlling frequency output; Range of programming: 0..max DP table index; 0 MO ^word U F_O_min Scaling of parameter controlling frequency output - minimum value; Range of programming: 0..1e11; 0 MO ^short U0 7951> F_O_max Scaling of parameter controlling frequency output - maximum value; Range of programming: 0..1e11; 0 MO ^short U0 7953>

31 828 F_min Output frequency corresponding to F_O_min; Range of programming: 0, ; 0 Hz MO ^short U0 7955> F_max Output frequency corresponding to F_O_max; Range of programming: 0, ; 0 Hz MO ^short U0 7957> F_out Current frequency at output SN1-OUT; 0 Hz O ^short 7959> SV1 Service parameter; 0 O ^dword 7961> SV2 Service parameter; 0 O ^dword 7963> SV3 Service parameter; 0 O ^dword 7965> SV1a Service parameter; 0 O ^dword 7967> samples dyn Number of samples of instant registration after detect of step change; Range of programming: 1..60; 0 MO ^byte U SetupLOG The filling level of SetupLOG memory; 0 % MO ^short P, I 7970> C6H14_C6+ Percentage share of hexane in C6+ properties; Range of programming: ; Default value: 48; 0 % MO ^short U0 7972> C7H16_C6+ Percentage share of heptane in C6+ properties; Range of programming: ; Default value: 35; 0 % MO ^short U0 7974> C8H18_C6+ Percentage share of octane in C6+ properties; Automatically fills up sum of all components of C6+ to 100%; 0 % O ^short 7976> C9H20_C6+ Percentage share of nonane in C6+ properties; Range of programming: ; Default value: 0; 0 % MO ^short U0 7978> C10H22_C6+ Percentage share of decane in C6+ properties; Range of programming: ; Default value: 0; 0 % MO ^short U0 7980> Erasing Data erasing; 0 MO ^byte S, P UpCode Device`s start code; 0 O ^dword OTS Service parameter; 0 O ^dword 7985> conf_inc Configuration of displaying increments of counters; 0 - always displayed, 1 - displayed only in normal conditions state (without system alarms); 0 MO ^byte S, P Cycle Algorithm cycle number; 0 O ^word

32 3.2. TABLE OF EVENTS (ZD TABLE) This table is presenting structure of alarms supported by MacMAT IV device. [code] Code of event or alarm, used i.e. for configuration of binary outputs. [name] Name of alarm or event. [num] Amount of parameters saved with event or alarm. [p1 p24] Indexes of parameters from DP table saved with event or alarm. Indexes with asterisk * means that value of parameters is taken from the moment of event or alarm closing. Additional markings used in the columns "p1.. "p24" and "description": System alarms. Process alarms. Momentary events. Constant events. Calibration mode. Additional markings used in the column code : - marking of events used only in pulse type of MacMAT IV (realization GT); - marking of events used only in orifice type of MacMAT IV (realization KR); Additional markings used in the column name : - marking of events that have influence on measurements results, including interventions in accordance with PN-EN :2005+A2:2010 WARNING: In column description are written definitions of events with the required conditions for they generation and (after symbol ****) name of parameter from DP table which control the delay of event generation. Description no delay means that event or alarm will be generated immediately. 32

33 code name num p1 p2 p3 p4 p5 p6 p7 p8 * p9 * p10 * p11 * p12 * p13 * p14 * p15 p16 * p17 p18 p19 p20 p21 p22 p23 p24 description 0 Device Startup Start of device **** no delay 1 Calculation error algz range Re limit Computation error in device was detected **** DP:387 (dly SYS) Value of indicated parameter exceed allowed limit, determined by requirements of selected algorithm used for computation of Z, Zb, Zk **** DP:387 (dly SYS) Value of Reynolds number > 1e8 **** DP:388 (dly PROC) 4 dp/p limit Ratio dp/p > 0,25 **** DP:388 (dly PROC) 5 dp1 range min dp1 range max dp2 range min dp2 range max dp limit min dp limit max dp1 circuit fault dp2 circuit fault dp1 step change dp2 step change p range min p range max p limit min p limit max p circuit fault p substitute p step change t range min t range max t limit min Value of current at differential pressure input dp1 (active pair of transducers) is under 3,95 ma **** DP:394 (dly dp rng) Value of current at differential pressure input dp1 (active pair of transducers) is above 20,2 ma **** DP:394 (dly dp rng) Value of current at differential pressure input dp2 (active pair of transducers) is under 3,95 ma **** DP:394 (dly dp rng) Value of current at differential pressure input dp2 (active pair of transducers) is above 20,2 ma **** DP:394 (dly dp rng) Value of differential pressure dp below lower value of configured limit DP:184 (l dp) **** DP:395 (dly dp lim) Value of differential pressure dp above upper value of configured limit DP:185 (u dp) **** DP:395 (dly dp lim) Short circuit/open circuit in input for a current circuit of differential pressure dp1 **** DP:402 (dly SHRCT) Short circuit/open circuit in input for a current circuit of differential pressure dp2 **** DP:402 (dly SHRCT) Step change of differential pressure value on input dp1 exceed DP:303 (dyn dp1) **** no delay Step change of differential pressure value on input dp2 exceed DP:304 (dyn dp2) **** no delay Value of current at pressure input p is below 3,95 ma **** DP:396 (dly p rng) Value of current at pressure input p is above 20,2 ma **** DP:396 (dly p rng) Value of pressure p below lower value of programmed limit DP:186 (l p) **** DP:397 (dly p lim) Value of pressure p above upper value of programmed limit DP:187 (u p) **** DP:397 (dly p lim) Short circuit/open circuit in input for a current circuit of pressure p **** DP:402 (dly SHRCT) Device performs calculation basing on substitute value of pressure DP:384 (p subst) **** DP:401 (dly SUBST) Step change of pressure value exceed DP:177 (dyn p) **** no delay Value of current at input of temperature t is below 3,95 ma **** DP:398 (dly t rng) Value of current at input of temperature t is above 20,2 ma **** DP:398 (dly t rng) Value of temperature t is below of programmed value of limit DP:188 (l t) **** DP:399 (dly t lim) 33

34 25 t limit max t circuit fault t substitute t step change RA range RB range R1 range R2 range R3 range R4 range R5 range R6 range R7 range R8 range RU1 range RU2 range RU3 range RU4 range RA limit RB limit R1 limit R2 limit R3 limit R4 limit R5 limit R6 limit R7 limit R8 limit RU1 limit Value of temperature t is above of programmed value of limit DP:189 (u t) **** DP:399 (dly t lim) Short circuit/open circuit in input for a current circuit of temperature t **** DP:402 (dly SHRCT) Device performs calculation basing on substitute value of temperature DP:385 (t subst) **** DP:401 (dly SUBST) Step change of temperature value exceed DP:178 (dyn t) **** no delay Value of current on input RA is out of measurement range (3,95 20,2) ma **** Value of current on input RB is out of measurement range (3,95 20,2) ma **** Value of current on input R1 is out of measurement range (3,95 20,2) ma **** Value of current on input R2 is out of measurement range (3,95 20,2) ma **** Value of current on input R3 is out of measurement range (3,95 20,2) ma **** Value of current on input R4 is out of measurement range (3,95 20,2) ma **** Value of current on input R5 is out of measurement range (3,95 20,2) ma **** Value of current on input R6 is out of measurement range (3,95 20,2) ma **** Value of current on input R7 is out of measurement range (3,95 20,2) ma **** Value of current on input R8 is out of measurement range (3,95 20,2) ma **** Value of current on input RU1 is out of measurement range (3,95 20,2) ma **** Value of current on input RU2 is out of measurement range (3,95 20,2) ma **** Value of current on input RU3 is out of measurement range (3,95 20,2) ma **** Value of current on input RU4 is out of measurement range (3,95 20,2) ma **** Value on input RA is out of programmed range (DP:190 and DP:191) **** Value on input RB is out of programmed range (DP:192 and DP:193) **** Value on input R1 is out of programmed range (DP:194 and DP:195) **** Value on input R2 is out of programmed range (DP:196 and DP:197) **** Value on input R3 is out of programmed range (DP:198 and DP:199) **** Value on input R4 is out of programmed range (DP:200 and DP:201) **** Value on input R5 is out of programmed range (DP:202 and DP:203) **** Value on input R6 is out of programmed range (DP:204 and DP:205) **** Value on input R7 is out of programmed range (DP:206 and DP:207) **** Value on input R8 is out of programmed range (DP:208 and DP:209) **** Value on input RU1 is out of programmed range (DP:210 and DP:211) **** 34

35 54 RU2 limit RU3 limit RU4 limit LF circuit fault HF1 circuit fault HF2 circuit fault Qm range min Qm range max Qm limit min Qm limit max Qm step change HF1/LF limit flf range fhf1 step change fhf2 step change HF1-HF2 limit dh1 limit dh2 limit dh3 limit S1: S2: S3: S4: S5: S6: Value on input RU2 is out of programmed range (DP:212 and DP:213) **** Value on input RU3 is out of programmed range (DP:214 and DP:215) **** Value on input RU4 is out of programmed range (DP:216 and DP:217) **** Short circuit/open circuit in input of LF pulse circuit **** DP:402 (dly SHRCT) Short circuit/open circuit in input of HF1 pulse circuit **** DP:402 (dly SHRCT) Short circuit/open circuit in input of HF2 pulse circuit **** DP:402 (dly SHRCT) Value of flow Qm is below the lower value of programmed range DP:139 (Qm min) **** DP:387 (dly SYS) Value of flow Qm is above the upper value of programmed range DP:140 (Qm max) **** DP:387 (dly SYS) Value of flow Qm is below the lower value of programmed limit DP:182 (l Qm) **** DP:400 (dly Qm lim) Value of flow Qm is above the upper value of programmed limit DP:183 (u Qm) **** DP:400 (dly Qm lim) Step change of flow value at measurement conditions exceed DP:179 (dyn Qm) **** no delay Current value of parameter DP:554 (HF1/LF) exceed tolerance of parameter DP:229 (t HF1/LF) **** no delay Frequency of pulses on input LF is higher than 2,5 Hz **** no delay Step change of frequency value fhf1 exceed DP:180 (dyn fhf1) **** no delay Step change of frequency value fhf2 exceed DP:181 (dyn fhf2) **** no delay Dynamically controlled difference of pulses increments value from inputs HF1 and HF2 is exceeding tolerance DP:231 (t HF1/2) in horizon DP:230 (l HF1/2) **** no delay Current value of parameter indicated in parameter DP:221 (l dh mode) exceed threshold DP:218 (l dh1) **** no delay Current value of parameter indicated in parameter DP:221 (l dh mode) exceed threshold DP:219 (l dh2) **** no delay Current value of parameter indicated in parameter DP:221 (l dh mode) exceed threshold DP:220 (l dh3) **** no delay Detected change of status at signaling S1 input **** Detected change of status at signaling S2 input **** Detected change of status at signaling S3 input **** Detected change of status at signaling S4 input **** Detected change of status at signaling S5 input **** Detected change of status at signaling S6 input **** 35

36 79 S7: S8: S9: S10: S11: S12: S13: S14: S15: S16: S17: S18: S19: S20: S21: S22: S23: S24: S25: S26: tamb range Calibration mode Software update Intrusion attempt * 474 * 476 * 475 * 481 Detected change of status at signaling S7 input **** Detected change of status at signaling S8 input **** Detected change of status at signaling S9 input **** Detected change of status at signaling S10 input **** Detected change of status at signaling S11 input **** Detected change of status at signaling S12 input **** Detected change of status at signaling S13 input **** Detected change of status at signaling S14 input **** Detected change of status at signaling S15 input **** Detected change of status at signaling S16 input **** Detected change of status at signaling S17 input **** Detected change of status at signaling S18 input **** Detected change of status at signaling S19 input **** Detected change of status at signaling S20 input **** Detected change of status at signaling S21 input **** Detected change of status at signaling S22 input **** Detected change of status at signaling S23 input **** Detected change of status at signaling S24 input **** Detected change of status at signaling S25 input **** Detected change of status at signaling S26 input **** External temperature is out of allowed operating range **** DP:387 (dly SYS) Calibration mode of measurement circuits is enabled **** no delay Device software was updated **** no delay 5 unsuccessful log in to device attempts detected software interlock of device is enabled for 15 min **** no delay 103 CFG lock Off Hardware programming lock is disabled **** no delay 104 User login Counter overrun Config. changed Device operator has logged into system using device keyboard **** no delay Indicated counter had exceed its maximum value (overflow of counter) **** no delay Performed modifications in configuration connected with measurement-computation algorithms (concerns parameters: DP:62 (conf_algz), DP:64 (conf_rob), DP:136 (LF factor), DP:137 (HF1 factor), DP:138 (HF2 factor); changes of ranges: DP:145 (p min) and 36

37 107 Value changed Text changed Vm changed DP:146 (p max), DP:147 (t min) and DP:148 (t max), DP:139 (Qm min), and DP:140 (Qm max); changes in configuration of device pulse inputs DP:498 (conf_imp); changes in configuration of current inputs (source of value for calculations) (DP: ), changes of base conditions DP:133 (pb), DP:134 (Tb) and DP:94 (T1); changes in state of temperature correction of meter body DP:440 (body corr); changes in state of correction based on error curve DP:441 (error curve corr)) **** no delay Detected changes in value of indicated parameter of DP table (numeric type) **** no delay Detected changes in value of indicated parameter of DP table (string type) **** no delay Value of counter DP:1 (Vm) was modified (causes automatic change in values of related counters: Vc=Vm, V2=Vm) **** no delay 110 dtau changed Modification of data registration period **** no delay 111 Time changed Setting of time was performed **** no delay 112 Time corrected Correction of time was performed **** no delay 113 Time auto set Ext. supply Off Battery low Device Auto Off Device Manual Off Battery Test Device automatically changed time from summer to winter (or vice versa) **** no delay Lack of external power source detected **** DP:388 (dly PROC) Charge level of rechargeable battery is less than 10% **** no delay Automatic turn off of device due to full discharge of rechargeable battery **** no delay Device was turned off by user with use of device keyboard **** no delay Performed test of rechargeable battery (full discharge cycle with connection to power grid) **** no delay 119 Battery Charging Charging of rechargeable battery **** no delay 120 T_batt range Collective alarm A Collective alarm B Collective alarm C Collective alarm D COM1 NoActivity COM2 NoActivity COM3 NoActivity COM4 NoActivity GasComp changed No GasComp Charging temperature is out of range (-12 76) C **** no delay Detected change of state in collective alarm A control vector **** no delay Detected change of state in collective alarm B control vector **** no delay Detected change of state in collective alarm C control vector **** no delay Detected change of state in collective alarm D control vector **** no delay No activity on port COM1 is longer than allowed time **** DP:390 (dly COM1) No activity on port COM2 is longer than allowed time **** DP:391 (dly COM2) No activity on port COM3 is longer than allowed time **** DP:392 (dly COM3) No activity on port COM4 is longer than allowed time **** DP:393 (dly COM4) Device obtained new gas composition for calculations entered with keyboard **** no delay Device didn't obtain new gas composition refused of modification or sum of components is different than 100% after expiry of time determined in parameter DP:98 (G tout) **** no delay 37

38 131 Autotest Diagnostic event for manufacturer service, generated during device startup informs about proper operation of device main program **** no delay 132 SetupLOG full SetupLOG memory full, erasing required **** no delay 133 Param1 limit Param2 limit Param3 limit Param4 limit Module 1 fault Module 2 fault Module 3 fault Module 4 fault Module 5 fault Module 6 fault Module 7 fault Module 8 fault Module 9 fault Module 10 fault Module 11 fault Module 12 fault Loss of pulse signal No ULTRA GasMeter ULTRA GasMeter error ULTRA service req ULTRA Vm-V3 limit Value of parameter programmed into parameter DP:232 (Param1) is below the limit DP:233 (l Param1) or above limit DP:234 (u Param1) **** no delay Value of parameter programmed into parameter DP:235 (Param2) is below the limit DP:236 (l Param2) or above limit DP:237 (u Param2) **** no delay Value of parameter programmed into parameter DP:238 (Param3) is below the limit DP:239 (l Param3) or above limit DP:240 (u Param3) **** no delay Value of parameter programmed into parameter DP:241 (Param4) is below the limit DP:242 (l Param4) or above limit DP:243 (u Param4) **** no delay Detected constant connection error with internal module No.1 **** no delay Detected constant connection error with internal module No.2 **** no delay Detected constant connection error with external module No.3 **** no delay Detected constant connection error with external module No.4 **** no delay Detected constant connection error with external module No.5 **** no delay Detected constant connection error with external module No.6 **** no delay Detected constant connection error with external module No.7 **** no delay Detected constant connection error with external module No.8 **** no delay Detected constant connection error with external module No.9 **** no delay Detected constant connection error with external module No.10 **** no delay Detected constant connection error with external module No.11 **** no delay Detected constant connection error with external module No.12 **** no delay Detected potential malfunction of main counting input (HF1 in configuration HF1/HF2 or LF in configuration LF/HF1) **** DP:583 (dly PULSE) Detected no digital connection with ultrasonic gas meter **** 'dly NONE_U' (DP:670) Ultrasonic gas meter reported about breakdown **** DP:671 (dly ERR_U) Ultrasonic gas meter reported about operation under conditions requiring service intervention **** DP:672 (dly ATT_U) Dynamically controlled difference of volume incrementation in counters Vm and V3 exceed tolerance DP:677 (t Vm-V3) in horizon DP:676 (l Vm-V3) **** no delay 38

39 154 QmI-QmU limit Transducer i1 alarm Detected discrepancy in uncorrected flows under measurement conditions DP:582 (QmI) and DP:642 (QmU) higher than tolerance DP:678 (t QmI-QmU) **** DP:673 (dly r.qm) Detected emergency state of transducer at input i1 **** DP:387 (dly SYS) 156 Transducer i2 alarm Transducer i3 alarm Transducer i4 alarm Data erased AlarmLOG full AlarmLOG >80% Detected emergency state of transducer at input i2 **** DP:387 (dly SYS) Detected emergency state of transducer at input i3 **** DP:387 (dly SYS) Detected emergency state of transducer at input i4 **** DP:387 (dly SYS) Performed erase of chosen archive of device (if parameter Erasing' has: 1 performed factory erase, 2 erased events (except SetupLOG), 3 erased periodically registered data, 5 - performed full factory erase, 10 - erased counters, 11 - erased pulse counters) **** no delay Memory reserved for alarms has reached its maximum capacity. Clearing of alarms is required **** no delay Memory reserved for alarms filled in 80% of its capacity. Clearing of alarms is recommended **** no delay 162 Alarms cleared Performed clearing of alarms **** no delay 163 Hardware Failure Hardware Malfunction No MASS Meter MASS Meter error MASS service req M-M_MA limit HART IN1 error HART IN2 error HART IN3 error HART IN4 error Service mode Detected failure of hardware, that don t have influence on device functions **** no delay Detected critical malfunction of hardware, operation of device can be incorrect **** no delay Detected no digital connection with mass meter **** DP:705 (dly NONE_MA) Mass meter reported about breakdown **** DP:706 (dly ERR_MA) Mass meter reported about operation under conditions requiring service intervention **** DP:707 (dly ATT_MA) Dynamically controlled difference of mass incrementation in counters M and M_MA exceed tolerance DP:704 (t M-M_MA) in horizon DP:703 (l M- M_MA) **** no delay Detected error in HART communication on channel 1 **** 'dly HART' (DP:822) Detected error in HART communication on channel 2 **** 'dly HART' (DP:822) Detected error in HART communication on channel 3 **** 'dly HART' (DP:822) Detected error in HART communication on channel 4 **** 'dly HART' (DP:822) Service mode is turned on - measurements may be stopped **** no delay 39

40 3.3. TABLE OF MAIN EVENTS (SETUPLOG) code name num p1 p2 p3 p4 p5 p Software update Data erased Config. changed Time changed Alarms cleared Intrusion attempt Calibration mode reserved SetupLOG erased Device type changed reserved 0 40

41 PLUM sp. z o.o Przelicznik MacMAT IV typ GT i typ KR Dokumentacja techniczno-ruchowa i instrukcja obsługi. Wydanie dokumentu: 1.3 Październik 2013 Wspólna 19, Ignatki Kleosin, Poland tel fax gas@plummac.com 41