1;HREG_T_OP1;int16;10;;Room temperature sensor TE20;Temperature at operator panel 1;;Temperature at operator panel 1;
2;HREG_T_OP2;int16;10;;Room temperature sensor TE21;Temperature at operator panel 2;;Temperature at operator panel 2;
3;HREG_EFFECTIVE_TF;uint16;1;;Current supply fan speed;The current effective TF fanspeed;Fan speed, supply air;Current supply air fan speed;
4;HREG_EFFECTIVE_PF;uint16;1;;Current exhaust fan speed;The current effective PF fanspeed;Fan speed, extract air;Current extract air fan speed;
5;HREG_UPCOMING_TIME_PROGRAM;uint16;1;;Next time program;Indicates the time program which will start during the next two hours.;;;Values 1-20 indicate week program slots, value 101-105 indicate year program slots
6;HREG_T_FRS;int16;10;;Fresh air;TE01 (fresh air) temperature.;Fresh air;Outside air temperature at the unit (sensor TE01);
7;HREG_T_SPLY_LTO;int16;10;;Supply air after HRC;TE05: Fresh (incoming) air temperature after HRC.;Supply air after HRC;Supply air temperature after heat recovery (sensor TE05);
8;HREG_T_SPLY;int16;10;;Supply air;TE10 Room supply air temperature;Supply air;Supply air temperature after supply air heater (sensor TE10);
9;HREG_T_WST;int16;10;;Waste air;TE32 Waste air temperature;Exhaust air;Exhaust air temperature (sensor TE32);
10;HREG_T_EXT;int16;10;;Room removed air;TE30 Room removed air temperature.;Extract air temperature;Extract air temperature from building at the unit (sensor TE30);
11;HREG_T_EXT_LTO;int16;10;;Removed air before HRC;TE31 removed air before heat recycler.;Extract air before HRC;Extract air temperature after extract air coil before heat recovery in HP units (sensor TE31);
12;HREG_T_WR;int16;10;;Return water;TE45 heater element return water temperature.;Return water;Return water temperature in supply air heater (sensor TE45);
13;HREG_HUM_EXT;uint16;1;;Exhaust air humidity;RH30 measurement, removed air relative humidity;Air humidity;Extract air relative humidity \%RH at the unit (sensor RH30);
14;HREG_PRES_SPLYF;uint16;1;;Pressure difference supply;Pressure difference over filter, TF side;Pressure difference supply;Pressure difference over filter, TF side;
15;HREG_PRES_EXTF;uint16;1;;Pressure difference ext;Pressure difference over filter, PF side;Pressure difference ext.;Pressure difference over filter, PF side;
16;HREG_TE07;int16;10;;HP/MDX/Dehum supply air;Supply air temperature after dehumidification coil, or after heat pump coil in HP-E, HP-W, MDX-E and MDX-W units (sensor TE07);;;
17;HREG_AI1;uint16;10;;Analog input voltage;Raw conversion result for AI1;Measured input voltage AI1;Current measured input voltage;
18;HREG_AI2;uint16;10;;Analog input voltage;Raw conversion result for AI2;Measured input voltage AI2;Current measured input voltage;
19;HREG_AI3;uint16;10;;Analog input voltage;Raw conversion result for AI3;Measured input voltage AI3;Current measured input voltage;
20;HREG_AI4;uint16;10;;Analog input voltage;Raw conversion result for AI4;Measured input voltage AI4;Current measured input voltage;
21;HREG_AI5;uint16;10;;Analog input voltage;Raw conversion result for AI5;Measured input voltage AI5;Current measured input voltage;
22;HREG_AI6;uint16;10;;Analog input voltage;Raw conversion result for AI6;Measured input voltage AI6;Current measured input voltage;
23;HREG_AI1_RES;uint16;1;;Calculated value;Calculated result for AI1;Calculated value AI1;Calculated result;
24;HREG_AI2_RES;uint16;1;;Calculated value;Calculated result for AI2;Calculated value AI2;Calculated result;
25;HREG_AI3_RES;uint16;1;;Calculated value;Calculated result for AI3;Calculated value AI3;Calculated result;
26;HREG_AI4_RES;uint16;1;;Calculated value;Calculated result for AI4;Calculated value AI4;Calculated result;
27;HREG_AI5_RES;uint16;1;;Calculated value;Calculated result for AI5;Calculated value AI5;Calculated result;
28;HREG_AI6_RES;uint16;1;;Calculated value;Calculated result for AI6;Calculated value AI6;Calculated result;
29;HREG_LTO_N_SPLY;uint16;1;;Heat recovery efficiency n supply;HRC efficiency ratio (supply side);Heat recovery efficiency, supply air;Supply air temperature efficiency. Calculated from outside air-, supply air after heat recovery- and extract air temperature;
30;HREG_LTO_N_EXT;uint16;1;;Heat recovery efficiency n exhaust;HRC efficiency ratio (ext (removed air) side);Heat recovery efficiency, exhaust air;Extract air temperature efficiency. Calculated from extract air-, exhaust air- and outside air temperature. In HP-units calculated from HRC extract air-, exhaust air- and outside air temperature;
35;HREG_RH_MEAN;uint16;1;;48h air humidity average;Mean relative humidity, with 48 hour history, updated every hour.;Average air humidity, 48h;Extract air 48h mean relative humidity \%RH at the unit (sensor RH30). Updated every hour;
36;HREG_ABSHUM10;uint16;10;;Supply air absolute humidity;Supply air absolute humidity, calculated from sensors TE10 and RH10, assuming normal atmospheric pressure.;;;
44;HREG_MODE;bitfield;1;;Status;The current mode of the machine, used to display information to the user.;Status;All current states of unit, eg. Home, Central vacuum cleaner, HP/EDX defrost etc.;Bit 0 indicates Max cooling mode, bit 1: max heating. Bit 2: Machine is stopped due to A alarm. Bit 3 indicates the machine has been stopped by request (ie. not due to alarm condition). Bit 4: indicates Away state. Bit 5 is reserved. Bit 6 indicates temperature boosting, bit 7 CO2 boosting, bit 8 RH boosting, bit 9 manual boosting. Bit 10 overpressure mode, bit 11 cooker hood mode, bit 12 central vacuum cleaner mode. Bit 13 indicates cool-off period of electrical heating coil. Bit 14 indicates summer night cooling mode. Bit 15 indicates heat recovery wheel defrosting mode. Value 0 indicates <20>normal<61> state, no special status is active.
45;HREG_EXTMODE;bitfield;1;;Temperature control step;Currently active temperature control step: Cooling, Heat recovery (LTO), or heating.;Temperature controller;"Displays current state of temperature controller; cooling, heat recovery, heating or none.";Bits 0,1,2,3 have <20>enumerated<65> meaning: TEMP_STEP_NONE = 0, TEMP_STEP_COOLING = 1, TEMP_STEP_LTO = 2, TEMP_STEP_HEATING = 4, TEMP_STEP_STARTUP = 7, TEMP_STEP_DEHUMIDIFICATION = 8. Bit 15 indicates Aqua mode, bit 14 indicates pre-heating active, bit 13 indicates that HP compressor effect is being limited, bit 12 indicates defrosting state of the HP or MDX unit
46;HREG_ROOM_TEMP;int16;10;;Room temperature average;TE20 room temperature, average value calculated from op panel sensors and room temperature transmitters.;Room temperature average;Room temperature (average temperature of sensors connected to OP wallmounts and AI temperature measurements if connected);
47;HREG_CASCADE_SP;int16;10;;Setpoint for supply air;Setpoint for temperature controller responsible for maintaining the room supply air at a constant level;Setpoint for supply air;Setpoint for temperature controller responsible for maintaining the room supply air at a constant level;
48;HREG_DISPLAY_SP;int16;10;;;Temperature controller setpoint shown to user;;;
49;HREG_OUTPUT;int16;1;;Controller output;Output from the TC1 temperature PI controller;Temperature controller output;-200 to -100 additional cooling, -100...-1=cooling, 0=nothing, 1...100=heat recovery, 101...200=additional heating or heat pump, 201...300=additional heating in heat pump units;
50;Reserved;;;;;Reserved;;;
51;Reserved;;;;;Reserved;;;
52;Reserved;;;;;Reserved;;;
53;Reserved;;;;;Reserved;;;
54;Reserved;;;;;Reserved;;;
55;Reserved;;;;;Reserved;;;
56;Reserved;;;;;Reserved;;;
57;Reserved;;;;;Reserved;;;
58;Reserved;;;;;Reserved;;;
59;Reserved;;;;;Reserved;;;
60;Reserved;;;;;Reserved;;;
61;Reserved;;;;;Reserved;;;
62;Reserved;;;;;Reserved;;;
63;Reserved;;;;;Reserved;;;
64;Reserved;;;;;Reserved;;;
65;Reserved;;;;;Reserved;;;
66;Reserved;;;;;Reserved;;;
67;Reserved;;;;;Reserved;;;
68;Reserved;;;;;Reserved;;;
69;Reserved;;;;;Reserved;;;
70;Reserved;;;;;Reserved;;;
71;Reserved;;;;;Reserved;;;
72;Reserved;;;;;Reserved;;;
73;Reserved;;;;;Reserved;;;
74;Reserved;;;;;Reserved;;;
75;Reserved;;;;;Reserved;;;
76;Reserved;;;;;Reserved;;;
77;Reserved;;;;;Reserved;;;
78;Reserved;;;;;Reserved;;;
79;Reserved;;;;;Reserved;;;
80;Reserved;;;;;Reserved;;;
81;Reserved;;;;;Reserved;;;
82;Reserved;;;;;Reserved;;;
83;Reserved;;;;;Reserved;;;
84;Reserved;;;;;Reserved;;;
85;Reserved;;;;;Reserved;;;
86;Reserved;;;;;Reserved;;;
87;Reserved;;;;;Reserved;;;
88;Reserved;;;;;Reserved;;;
89;Reserved;;;;;Reserved;;;
90;Reserved;;;;;Reserved;;;
91;Reserved;;;;;Reserved;;;
92;Reserved;;;;;Reserved;;;
93;Reserved;;;;;Reserved;;;
94;Reserved;;;;;Reserved;;;
95;Reserved;;;;;Reserved;;;
96;Reserved;;;;;Reserved;;;
97;Reserved;;;;;Reserved;;;
98;Reserved;;;;;Reserved;;;
99;Reserved;;;;;Reserved;;;
100;Reserved;;;;;Reserved;;;
101;Reserved;;;;;Reserved;;;
102;Reserved;;;;;Reserved;;;
103;Reserved;;;;;Reserved;;;
104;HREG_AI1_TYPE;uint16;1;;Sensor type;Type of external sensor in AI1.;Sensor type;;
105;HREG_AI2_TYPE;uint16;1;;Sensor type;Type of external sensor in AI2.;Sensor type;;
106;HREG_AI3_TYPE;uint16;1;;Sensor type;Type of external sensor in AI3.;Sensor type;;
107;HREG_AI4_TYPE;uint16;1;;Sensor type;Type of external sensor in AI4.;Sensor type;;
108;HREG_AI5_TYPE;uint16;1;;Sensor type;Type of external sensor in AI5.;Sensor type;;
109;HREG_AI6_TYPE;uint16;1;;Sensor type;Type of external sensor in AI6.;Sensor type;;
110;HREG_AI1_VL;uint16;10;0 - 100;Voltage low;AI1 voltage low;Voltage low;Input signal lower limit;
111;HREG_AI2_VL;uint16;10;0 - 100;Voltage low;AI2 voltage low;Voltage low;Input signal lower limit;
112;HREG_AI3_VL;uint16;10;0 - 100;Voltage low;AI3 voltage low;Voltage low;Input signal lower limit;
113;HREG_AI4_VL;uint16;10;0 - 100;Voltage low;AI4 voltage low;Voltage low;Input signal lower limit;
114;HREG_AI5_VL;uint16;10;0 - 100;Voltage low;AI5 voltage low;Voltage low;Input signal lower limit;
115;HREG_AI6_VL;uint16;10;0 - 100;Voltage low;AI6 voltage low;Voltage low;Input signal lower limit;
116;HREG_AI1_VH;uint16;10;0 - 100;Voltage high;AI1 voltage high;Voltage high;Input signal upper limit;
117;HREG_AI2_VH;uint16;10;0 - 100;Voltage high;AI2 voltage high;Voltage high;Input signal upper limit;
118;HREG_AI3_VH;uint16;10;0 - 100;Voltage high;AI3 voltage high;Voltage high;Input signal upper limit;
119;HREG_AI4_VH;uint16;10;0 - 100;Voltage high;AI4 voltage high;Voltage high;Input signal upper limit;
120;HREG_AI5_VH;uint16;10;0 - 100;Voltage high;AI5 voltage high;Voltage high;Input signal upper limit;
121;HREG_AI6_VH;uint16;10;0 - 100;Voltage high;AI6 voltage high;Voltage high;Input signal upper limit;
122;HREG_AI1_RL;int16;1;;Result low;AI1 output value from voltage low;Voltage low, effect;Result of input signal equivalent to Voltage low value;
123;HREG_AI2_RL;int16;1;;Result low;AI2 output value from voltage low;Voltage low, effect;Result of input signal equivalent to Voltage low value;
124;HREG_AI3_RL;int16;1;;Result low;AI3 output value from voltage low;Voltage low, effect;Result of input signal equivalent to Voltage low value;
125;HREG_AI4_RL;int16;1;;Result low;AI4 output value from voltage low;Voltage low, effect;Result of input signal equivalent to Voltage low value;
126;HREG_AI5_RL;int16;1;;Result low;AI5 output value from voltage low;Voltage low, effect;Result of input signal equivalent to Voltage low value;
127;HREG_AI6_RL;int16;1;;Result low;AI6 output value from voltage low;Voltage low, effect;Result of input signal equivalent to Voltage low value;
128;HREG_AI1_RH;int16;1;;Result high;AI1 output value from voltage high;Voltage high, effect;Result of input signal equivalent to Voltage high value;
129;HREG_AI2_RH;int16;1;;Result high;AI2 output value from voltage high;Voltage high, effect;Result of input signal equivalent to Voltage high value;
130;HREG_AI3_RH;int16;1;;Result high;AI3 output value from voltage high;Voltage high, effect;Result of input signal equivalent to Voltage high value;
131;HREG_AI4_RH;int16;1;;Result high;AI4 output value from voltage high;Voltage high, effect;Result of input signal equivalent to Voltage high value;
132;HREG_AI5_RH;int16;1;;Result high;AI5 output value from voltage high;Voltage high, effect;Result of input signal equivalent to Voltage high value;
133;HREG_AI6_RH;int16;1;;Result high;AI6 output value from voltage high;Voltage high, effect;Result of input signal equivalent to Voltage high value;
134;HREG_TE01_24H_AVG;int16;10;;Average outside temperature;24-hour outside temperature average;;;
135;HREG_T_SETPOINT;int16;10;0 - 500;Supply air setpoint;The desired setpoint set by the user.;Supply air setpoint;Desired setpoint set by the user;
137;HREG_TE01_SUMMER_WINTER_THRESHOLD;int16;10;-250;Summer/Winter threshold;Summer/Winter season 24-hour average outside temperature threshold value;Summer/winter threshold temperature;"Outside air 24h average temperature; in summer mode extract air 48h average humidity, in winter mode a fixed \%RH threshold";
172;HREG_TEMP_DECREASE_VAL;int16;10;0 - 150;Temperature decrease;The amount of degrees the temperature should be lowered then temperature decrease function is on.;Temperature decrease;Number of degrees, under which the temperature should be maintained when temperature decrease function is on;Low limit can be negative to enable temperature increase function.
215;HREG_WC1;enumeration;1;;;Week timer 1 Function;WC1 Function;WC1 Function;#define TIMER_PROGRAM_OFF 0 #define TIMER_AWAY 1 #define TIMER_AWAY_LONG 2 #define TIMER_HEAT_DIS 3 #define TIMER_COOL_DIS 4 #define TIMER_TEMP_DECR 5 #define TIMER_MAX_H 6 #define TIMER_MAX_C 7 #define TIMER_RELAY 16 #define TIMER_BOOST 17 /* Circulation air state change time program (Pallas) */ #define TIMER_CLOSED_CIRCULATION 18 /* This time program function is relevant in OFFICE program variant (use * method) and it means that the machine should be running (instead of * being in STOP state). */ #define TIMER_RUNTIME 30
216;HREG_DAY_WC2;bitfield;1;;Week timer slot #2;Week timer 2 Days when allowed. ;Days;Days;
337;HREG_ACTIVE_TIMEPROGRAMS_2;uint16;1;;Active time programs, week slots 17-20 and year slots 1-5;Active time programs, week slots 17-20 and year slots 1-5;;;
338;HREG_STO_HOUR_Y1;uint16;1;;;Year program 1 stop hour;;;
339;HREG_STO_MIN_Y1;uint16;1;;;Year program 1 stop minute;;;
340;HREG_Y1;uint16;1;;;Year program 1 action;;;#define TIMER_PROGRAM_OFF 0 #define TIMER_AWAY 1 #define TIMER_AWAY_LONG 2 #define TIMER_HEAT_DIS 3 #define TIMER_COOL_DIS 4 #define TIMER_TEMP_DECR 5 #define TIMER_MAX_H 6 #define TIMER_MAX_C 7 #define TIMER_RELAY 16 #define TIMER_BOOST 17 /* Circulation air state change time program (Pallas) */ #define TIMER_CLOSED_CIRCULATION 18 /* This time program function is relevant in OFFICE program variant (use * method) and it means that the machine should be running (instead of * being in STOP state). */ #define TIMER_RUNTIME 30
341;HREG_STA_PV_Y2;uint16;1;;Year timer slot #2;Year program 2 start day-of-month;;;
342;HREG_STA_KK_Y2;uint16;1;;;Year program 2 stop month;;;
370;HREG_FILTER_TEST_TF;uint16;1;;Filter test TF fan speed;Filter test TF fan speed;;;During filter test mode TF will run at this constant fanspeed even in constant duct pressure mode. Note that if value is outside range 20-100, 100% will be used
376;HREG_FILTER_TEST_PF;uint16;1;;Filter test PF fan speed;Filter test PF fan speed;;;During filter test mode PF will run at this constant fanspeed even in constant duct pressure mode. Note that if value is outside range 20-100, 100% will be used
377;HREG_STA_HOUR_Y5;uint16;1;;;Year program 5 start hour;;;
378;HREG_STA_MIN_Y5;uint16;1;;;Year program 5 start minute;;;
379;HREG_STO_PV_Y5;uint16;1;;;Year program 5 stop day of month;;;
380;HREG_STO_KK_Y5;uint16;1;;;Year program 5 stop month;;;
381;Reserved;;;;;Reserved;;;
382;HREG_STO_HOUR_Y5;uint16;1;;;Year program 5 stop hour;;;
383;HREG_STO_MIN_Y5;uint16;1;;;Year program 5 stop minute;;;
384;HREG_Y5;uint16;1;;;Year program 5 action;;;
385;HREG_ALARM1_ALMTYPE;uint16;1;;Alarm log entry #1;Alarm 1 (newest) alarm type;;Alarm 1 (newest) alarm type;ALARM_TE05_L = 1, ALARM_TE10_L = 2, ALARM_TE10_H = 3, ALARM_TE20_H = 4, ALARM_TE30_L = 5, ALARM_TE30_H = 6, ALARM_HP = 7, /* This is both HP and MDX */ ALARM_SLP = 8, ALARM_TE45_L = 9, ALARM_LTO = 10, ALARM_COOL = 11, ALARM_EMERGENCY_STOP = 12 , ALARM_EXTERNAL = 13, /** This used to be ALARM_FIRE on EDA */ ALARM_SERVICE =14 , ALARM_PDS10 = 15, ALARM_SPLY_FILT_H = 16, ALARM_EXT_FILT_H = 17, ALARM_SPLY_FILT_L = 18 , /* This alarm is actually not in use. It is relevant only for large machines with 2-speed fan control */ ALARM_EXT_FILT_L = 19 , /* This alarm is actually not in use. It is relevant only for large machines with 2-speed fan control */ ALARM_TF_PRES = 20, ALARM_PF_PRES = 21 , ALARM_TE50_H = 22, ALARM_TE52_H = 24, ALARM_TF_ROTATION = 25, ALARM_PF_ROTATION = 26, ALARM_TE02_H = 27, ALARM_SERVICE_CONSTANT_DUCT_PRES = 28, /* Under constant duct pressure control, Service alarm is triggered then fanspeeds reach a defined limit */
386;HREG_ALARM1_STATECLASS;uint16;1;;;Alarm 1 This defines the status (low byte) of the alarm;;;ALARM_STATE_OFF = 0, ALARM_STATE_ACKED = 1, ALARM_STATE_ON = 2. Write <20>1<EFBFBD> or <20>2<EFBFBD> to this register to acknowledge the alarm.
538;HREG_ALARM_SERVICE_TIME;uint16;1;;Service reminder;Number of days until service reminder alarm is signaled.;Service reminder;Number of days until service reminder alarm is given;
539;Reserved;;;;;Reserved;;;
540;Reserved;;;;;Reserved;;;
541;Reserved;;;;;Reserved;;;
542;Reserved;;;;;Reserved;;;
543;Reserved;;;;;Reserved;;;
544;Reserved;;;;;Reserved;;;
545;Reserved;;;;;Reserved;;;
546;Reserved;;;;;Reserved;;;
547;Reserved;;;;;Reserved;;;
548;Reserved;;;;;Reserved;;;
549;Reserved;;;;;Reserved;;;
550;Reserved;;;;;Reserved;;;
551;Reserved;;;;;Reserved;;;
552;Reserved;;;;;Reserved;;;
553;Reserved;;;;;Reserved;;;
554;Reserved;;;;;Reserved;;;
555;Reserved;;;;;Reserved;;;
556;Reserved;;;;;Reserved;;;
557;Reserved;;;;;Reserved;;;
558;Reserved;;;;;Reserved;;;
559;Reserved;;;;;Reserved;;;
560;Reserved;;;;;Reserved;;;
561;Reserved;;;;;Reserved;;;
562;Reserved;;;;;Reserved;;;
563;Reserved;;;;;Reserved;;;
564;Reserved;;;;;Reserved;;;
565;Reserved;;;;;Reserved;;;
566;Reserved;;;;;Reserved;;;
567;Reserved;;;;;Reserved;;;
568;Reserved;;;;;Reserved;;;
569;Reserved;;;;;Reserved;;;
570;Reserved;;;;;Reserved;;;
571;Reserved;;;;;Reserved;;;
572;Reserved;;;;;Reserved;;;
573;Reserved;;;;;Reserved;;;
574;Reserved;;;;;Reserved;;;
575;Reserved;;;;;Reserved;;;
576;Reserved;;;;;Reserved;;;
577;Reserved;;;;;Reserved;;;
578;HREG_B_ALARM_START;uint16;1;;Start time;B alarm relay signaling allowed start hour.;Start time;Allowed start time for B alarm output;The defined time is HH:00, where HH is the register's value
579;HREG_B_ALARM_STOP;uint16;1;;Ending time;B alarm relay signaling allowed stop hour.;Ending time;Allowed stop time for B alarm output;The defined time is HH:00, where HH is the register's value
580;HREG_B_ALARM_WEEKDAYS;bitfield;1;;Weekdays;B alarm relay signaling allowed weekdays (bitmap, stored in low 7 bits of the register).;Weekdays;Choose allowed weekdays for B alarm output;Bit 0: Sunday <20> Bit 6: Saturday
581;HREG_N_O_ALARMS;uint16;1;;Number of alarms;Current number of alarms in the alarm log.;Number of alarms;Current number of alarms in the alarm log;
582;HREG_C_MIN_RTC;uint16;1;;;RTC interface for changing minutes field;;;
583;HREG_C_HOUR_RTC;uint16;1;;;RTC interface for changing hour field;;;
584;HREG_C_DAY_RTC;uint16;1;;;RTC interface for changing day of month field;;;
585;HREG_C_MONTH_RTC;uint16;1;;;RTC interface for changing month field;;;
586;HREG_C_YEAR_RTC;uint16;1;;;RTC interface for changing year field;;;
587;Reserved;;;;;Reserved;;;
588;Reserved;;;;;Reserved;;;
589;Reserved;;;;;Reserved;;;
590;Reserved;;;;;Reserved;;;
591;Reserved;;;;;Reserved;;;
592;Reserved;;;;;Reserved;;;
593;Reserved;;;;;Reserved;;;
594;Reserved;;;;;Reserved;;;
595;Reserved;;;;;Reserved;;;
596;Reserved;;;;;Reserved;;;
597;HREG_FAMILY_TYPE;uint16;1;;Family;Machine family type;Family;Machine family type;
598;HREG_HW_VERSION;enumeration;1;;Hardware version;Hardware version desc;MD Hardware version;Unit motherboard hardware version;Value 1 corresponds to Rev.A, value 2 is B, value is C and so forth up to 27 which is Rev.Z
640;HREG_MBADDR;uint16;1;1 - 100;Modbus id;Modbus address used by the card.;Modbus id;MD card modbus address 1 - 100;
641;Reserved;;;;;Reserved;;;
642;Reserved;;;;;Reserved;;;
643;Reserved;;;;;Reserved;;;
644;Reserved;;;;;Reserved;;;
645;Reserved;;;;;Reserved;;;
646;Reserved;;;;;Reserved;;;
647;Reserved;;;;;Reserved;;;
648;Reserved;;;;;Reserved;;;
649;Reserved;;;;;Reserved;;;
650;Reserved;;;;;Reserved;;;
651;Reserved;;;;;Reserved;;;
652;Reserved;;;;;Reserved;;;
653;Reserved;;;;;Reserved;;;
654;HREG_IPADDR_HIGH;uint16;1;;IP address;IP address high bytes Useful values: 192.168 would be 49320;IP address;;Calculate this as A*2^8+B for IP addr starting with bytes A.B
655;HREG_IPADDR_LOW;uint16;1;;IP address;IP address low bytes;IP address;;: Calculate this as C*2^8+D for IP addr ending with bytes C.D
656;HREG_GWIPADDR_HIGH;uint16;1;;Gateway IP address;Gateway IP address low bytes Note: useful values: 192.168 would be 49320;;;Calculate this as A*2^8+B for gateway IP addr starting with bytes A.B
657;HREG_GWIPADDR_LOW;uint16;1;;Gateway IP address;Gateway IP address low bytes/;;;: Calculate this as C*2^8+D for gateway IP addr ending with bytes C.D
658;HREG_NETMASK_HIGH;uint16;1;;Netmask;Netmask high bytes Note: useful value 65535, for bytes 255.255;;;: Calculate this as A*2^8+B for netmask starting with bytes A.B
659;HREG_NETMASK_LOW;uint16;1;;Netmask;Netmask low bytes Note: useful value 65280, for bytes 255.0;;;: Calculate this as C*2^8+D for netmask ending with bytes C.D
660;HREG_DNSIP_ADDR_HIGH;uint16;1;;DNS server address;DNS server IP high bytes;;;: Calculate this as A*2^8+B for ip starting with bytes A.B
661;HREG_DNSIP_ADDR_LOW;uint16;1;;DNS server address;DNS server IP low bytes;;;: Calculate this as C*2^8+D for ip ending with bytes C.D
662;Reserved;;;;;Reserved;;;
663;Reserved;;;;;Reserved;;;
664;Reserved;;;;;Reserved;;;
665;Reserved;;;;;Reserved;;;
666;Reserved;;;;;Reserved;;;
667;HREG_DHCP_CONTROL;enumeration;1;;DHCP;Dynamic Host Configuration Protocol;;;Value of 0 indicates DHCP is active, value of 1 indicates DHCP inactive.
668;Reserved;;;;;Reserved;;;
669;Reserved;;;;;Reserved;;;
670;Reserved;;;;;Reserved;;;
671;Reserved;;;;;Reserved;;;
672;Reserved;;;;;Reserved;;;
673;Reserved;;;;;Reserved;;;
674;Reserved;;;;;Reserved;;;
675;Reserved;;;;;Reserved;;;
676;Reserved;;;;;Reserved;;;
677;Reserved;;;;;Reserved;;;
678;Reserved;;;;;Reserved;;;
679;Reserved;;;;;Reserved;;;
680;Reserved;;;;;Reserved;;;
681;Reserved;;;;;Reserved;;;
682;Reserved;;;;;Reserved;;;
683;Reserved;;;;;Reserved;;;
684;Reserved;;;;;Reserved;;;
685;Reserved;;;;;Reserved;;;
686;Reserved;;;;;Reserved;;;
687;Reserved;;;;;Reserved;;;
688;Reserved;;;;;Reserved;;;
689;Reserved;;;;;Reserved;;;
690;Reserved;;;;;Reserved;;;
691;Reserved;;;;;Reserved;;;
692;Reserved;;;;;Reserved;;;
693;Reserved;;;;;Reserved;;;
694;Reserved;;;;;Reserved;;;
695;Reserved;;;;;Reserved;;;
696;Reserved;;;;;Reserved;;;
697;Reserved;;;;;Reserved;;;
698;Reserved;;;;;Reserved;;;
699;Reserved;;;;;Reserved;;;
700;Reserved;;;;;Reserved;;;
701;Reserved;;;;;Reserved;;;
702;Reserved;;;;;Reserved;;;
703;Reserved;;;;;Reserved;;;
704;Reserved;;;;;Reserved;;;
705;Reserved;;;;;Reserved;;;
706;Reserved;;;;;Reserved;;;
707;Reserved;;;;;Reserved;;;
708;Reserved;;;;;Reserved;;;
709;Reserved;;;;;Reserved;;;
710;Reserved;;;;;Reserved;;;
711;Reserved;;;;;Reserved;;;
712;Reserved;;;;;Reserved;;;
713;Reserved;;;;;Reserved;;;
714;Reserved;;;;;Reserved;;;
715;Reserved;;;;;Reserved;;;
716;Reserved;;;;;Reserved;;;
717;Reserved;;;;;Reserved;;;
718;Reserved;;;;;Reserved;;;
719;Reserved;;;;;Reserved;;;
720;Reserved;;;;;Reserved;;;
721;Reserved;;;;;Reserved;;;
722;Reserved;;;;;Reserved;;;
723;Reserved;;;;;Reserved;;;
724;Reserved;;;;;Reserved;;;
725;Reserved;;;;;Reserved;;;
726;Reserved;;;;;Reserved;;;
727;Reserved;;;;;Reserved;;;
728;Reserved;;;;;Reserved;;;
729;Reserved;;;;;Reserved;;;
730;Reserved;;;;;Reserved;;;
731;Reserved;;;;;Reserved;;;
732;Reserved;;;;;Reserved;;;
733;HREG_MODBUS_SPEED;enumeration;1;;Modbus speed;Modbus RTU serial line speed;Modbus speed;Modbus RTU serial line speed; SPEED_9600 = 6, SPEED_19200 = 7, SPEED_115200 = 10
734;HREG_MODBUS_PARITY;enumeration;1;;Modbus parity;Modbus RTU serial line parity;Modbus parity;Modbus RTU serial line parity;PARITY_NONE = 1, PARITY_EVEN = 2
780;HREG_AO1_VOLT;uint16;10;;AO1 voltage;The voltage on Analog Output 1;;;NB: Only on sw 1.18 and above
781;HREG_AO2_VOLT;uint16;10;;AO2 voltage;The voltage on Analog Output 2;;;NB: Only on sw 1.18 and above
782;HREG_AO3_VOLT;uint16;10;;AO3 voltage;The voltage on Analog Output 3;;;NB: Only on sw 1.18 and above
783;HREG_AO4_VOLT;uint16;10;;AO4 voltage;The voltage on Analog Output 4;;;NB: Only on sw 1.18 and above
784;HREG_AO5_VOLT;uint16;10;;AO5 voltage;The voltage on Analog Output 5;;;NB: Only on sw 1.18 and above
785;HREG_AO6_VOLT;uint16;10;;AO6 voltage;The voltage on Analog Output 6;;;NB: Only on sw 1.18 and above
786;HREG_AO7_VOLT;uint16;10;;AO7 voltage;The voltage on Analog Output 7;;;NB: Only on sw 1.18 and above
787;HREG_AO8_VOLT;uint16;10;;AO8 voltage;The voltage on Analog Output 8;;;NB: Only on sw 1.18 and above
788;HREG_DI9_PULSE_CNT;uint16;1;;DI9 pulse count;Number of pulses detected on DI9;;;NB: Only on sw 1.18 and above
789;HREG_DI_BITMAP;uint16;1;;DI1-12 and X9-GPIO1-3 status;Status bitmap of digital inputs DI1 to DI12 and GPIO pins 1-3 on connector X9;;;NB: Only on sw 1.18 and above
790;HREG_AI9_VOLT;uint16;10;;AI9 voltage;The measured voltage on Analog Input 9;;;Input also known as X10_1. NB: long time constant! NB: Only on sw 1.18 and above
791;HREG_AI10_VOLT;uint16;10;;AI10 voltage;The measured voltage on Analog Input 10;;;Input also known as X10_1. NB: long time constant! NB: Only on sw 1.18 and above
792;HREG_AI11_VOLT;uint16;10;;AI11 voltage;The measured voltage on Analog Input 11;;;Input also known as X10_1. NB: long time constant! NB: Only on sw 1.18 and above
793;HREG_AI12_VOLT;uint16;10;;AI12 voltage;The measured voltage on Analog Input 12;;;Input also known as X10_1. NB: long time constant! NB: Only on sw 1.18 and above
794;HREG_AI13_VOLT;uint16;10;;AI13 voltage;The measured voltage on Analog Input 13;;;Input also known as X10_1. NB: long time constant! NB: Only on sw 1.18 and above
795;HREG_AI14_VOLT;uint16;10;;AI14 voltage;The measured voltage on Analog Input 14;;;Input also known as X10_1. NB: long time constant! NB: Only on sw 1.18 and above
796;HREG_AI15_VOLT;uint16;10;;AI15 voltage;The measured voltage on Analog Input 15;;;Input also known as X10_1. NB: long time constant! NB: Only on sw 1.18 and above
797;HREG_AI16_VOLT;uint16;10;;AI16 voltage;The measured voltage on Analog Input 16;;;Input also known as X10_1. NB: long time constant! NB: Only on sw 1.18 and above
798;HREG_DO_BITMAP;uint16;1;;DO1-8 status;Status bitmap of digital outputs (relays);;;NB: Only on sw 1.18 and above
799;Reserved;uint16;1;;Ping register;Reserved;;;This register is used by eAir web UI to test if the connection is live