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Intesis Interface integration Haier air conditioners Manual

ItsManual — Mon, 08 May 2023 12:21:05 +0000

Intesis Interface integration Haier air conditioners User Manual

KNX TP1 (EIB)

ORDER CODE	LEGACY ORDER CODE
INKNXHAI008C000	HA-AC-KNX-8
INKNXHAI016C000	HA-AC-KNX-16
INKNXHAI064C000	HA-AC-KNX-64

Important User Information

Disclaimer

The information in this document is for informational purposes only. Please inform HMS Industrial Networks of any inaccuracies or omissions found in this document. HMS Industrial Networks disclaims any responsibility or liability for any errors that may appear in this document.

HMS Industrial Networks reserves the right to modify its products in line with its policy of continuous product development. The information in this document shall therefore not be construed as a commitment on the part of HMS Industrial Networks and is subject to change without notice. HMS Industrial Networks makes no commitment to update or keep current the information in this document.

The data, examples and illustrations found in this document are included for illustrative purposes and are onlyintended to help improve understanding of the functionality and handling of the product. In view of the wide range of possible applications of the product, and because of the many variables and requirements associated with any particular implementation, HMS Industrial Networks cannot assume responsibility or liability for actual use based on the data, examples or illustrations included in this document nor for any damages incurred during installation of the product. Those responsible for the use of the product must acquire sufficient knowledge in order to ensure that the product is used correctly in their specific application and that the application meets all performance and safety requirements including any applicable laws, regulations, codes and standards. Further, HMS Industrial Networks will under no circumstances assume liability or responsibility for any problems that may arise as a result from the use of undocumented features or functional side effects found outside the documented scope of the product. The effects caused by any direct or indirect use of such aspects of the product are undefined and may include e.g. compatibility issues and stability issues.

1 Presentation

INKNXHAI0–C000allows a complete and natural integration of Haier air conditioners with KNX control systems.
Compatible with all models of VRF line of Haier air conditioners.

Main features:

Reduced dimensions. Installation even inside the A.C. indoor unit.
Quick and non-visible installation.
External power not required.
Direct connection to the KNX EIB bus.
Direct connection to the AC indoor unit.
Fully KNX interoperable, configuration from ETS.
Multiple objects for control (of different types: bit, byte, characters…).
Control of the AC unit based in the ambient temperature read by the own AC unit, or in the ambient temperature read by any KNX thermostat.
Total Control and Monitoring of the AC unit from KNX, including monitoring of AC unit’s state of internal variables, running hours counter (for filter maintenance control), and error indication and error code.
AC unit can be controlled simultaneously by the IR remote control of the AC unit and by KNX.

2 Connection

Disconnect mains power from the AC unit. Open the front cover of the indoor unit in order to have access to the internal control board. In the control board locate the socket connector marked as ABG1.

Using a 3-wire cable, connect the ABG1 connector from the INKNXHAI0- C000to the A B G1 connector of the AC unit’s control board.

Fix the INKNXHAI0–C000inside or outside the AC indoor unit depending on your needs – remember that INKNXHAI0–C000must be also connected to the KNX bus. Close the AC indoor unit’s front cover again.

Disconnect power of the KNX bus. Connect the interface to the KNX TP-1 (EIB) bus using the KNX standard connector (red/grey) of the interface, respect polarity. Reconnect power of the KNX bus.

Figure 2.1 Default parameter configuration

Each Haier Communication Adaptor connects to a single Outdoor Unit.

The INKNXHAI008C000-16-64 can be connected to more than one Haier Communication Adaptor simultaneously.

NOTE: More than one Haier Communication Adaptor can be present in the installation.
Please make sure that the address of the Haier Communication Adaptor is correctly set in the ETS. Check section 4.6 for more information.

3 Configuration and setup

This is a fully compatible KNX device which must be configured and setup using standard KNX tool ETS.

ETS project for this device can be downloaded from: https://www.intesis.com/products/ac-interfaces/haier-gateways/haier-knx-vrf-ha-ac-knx

Please consult the README.txt file, located inside the downloaded zip file, to find instructions on how to install the database.

4 ETS Parameters

When imported to the ETS software for the first time, the gateway shows the following default parameter configuration:

Figure 4.1 Default parameter configuration

With this configuration it’s possible to send On/Off (Control_ On/Off), change the AC Mode (Control_ Mode), the Fan Speed (Control_ Fan Speed) and also the Setpoint Temperature (Control_ Setpoint Temperature). The Status_ objects, for the mentioned Control_ objects, are also available to use if needed. Objects Status_ AC Ambient Reference Temperature and Status_ Error/Alarm are shown too.

Figure 4.2 Default communication objects

4.1 General configuration

Inside this parameter’s dialog it is possible to activate or change the parameters shown in the Figure 4.1.

4.1.1 Download latest database entry for this product and its User Manual from:
The first field shows the URL where to download the database and the user manual for the product.

Figure 4.3 Parameter detail

4.1.2 Intesis Product
This parameter is used to check, before sending the programing, the maximum number of AC units your device supports.

Figure 4.4 Parameter detail

Select the version of the gateway that you have:

INKNXHAI008C000, if you only want to control up to 8 AC unit.
INKNXHAI016C000, if you only want to control up to 16 AC units.
INKNXHAI064C000, if you only want to control up to 64 AC units.

4.1.3 Number of Indoor Units in ETS
This parameter is used to hide/show communication object according to the number of AC units you need to configure. Value ranges go from 1 to 64.

Figure 4.5 Parameter detail

In case you introduce a number higher than the maximum number of units allowed by your license, you will get a warning message. This is just for information and will not block the configuration process. Configurations with more indoor units configured than the ones allowed by the license will not be downloaded correctly.

Figure 4.6 Parameter detail

4.1.4 First Status Updated to KNX
This parameter defines how fast the status is updated to KNX. Depending on the value selected, more or less priority will be assigned to this action. As there are so many parameters available, it is important to consider carefully how to set this parameter.

If set to “ASAP”, all status communication objects will send its value (if needed).
If set to “Slow”, all status communication objects will send its value (if needed), but slower than in the previous option (ASAP).
If set to “Super Slow”, all status communication objects will send its value (if needed), but slower than in the previous option (Slow).

Figure 4.7 Parameter detail

4.1.5 Enable object “Error Code [2byte]”
This parameter shows/hides the Status_ Error Code communication object which shows the indoor unit errors, if occurred, in numeric format.

Figure 4.8 Communication object and parameter detail

If set to “Disabled” the object will not be shown.
If set to “Enabled” the Status_ Error Code [2byte signed value] object will appear.
- This object can be read and also sends the indoor unit error, if occurred, in numeric format. If a “0” value is shown that means no error.

4.1.6 Enable object “Error Text Code [14byte]”
This parameter shows/hides the Status_ Error Text Code communication object which shows the indoor unit errors, if occurred, in text format.

Figure 4.9 Communication object and parameter detail

If set to “Disabled” the object will not be shown.
If set to “Enabled” the Status_ Error Text Code object will appear.
- This object can be read and also sends the indoor unit error, if occurred, in text format. The errors shown have the same format as in the remote controller and in the error list from the indoor unit manufacturer. If the object’s value is empty, that means there is no error.

4.2 Global mode configuration

Figure 4.10 Default Mode Configuration dialog

All the parameters in this section are related with the different mode properties and communication objects.

The byte-type communication object for Mode works with the DTP_20.105. Auto mode will be enabled with a “0” value, Heat mode with a “1” value, Cool mode with a “3” value, Fan mode with a “9” value and Dry mode with a “14” value.

4.2.1 Enable use of “Operating Mode” objects
This parameter shows/hides the Control_ and Status_ Mode Operating Mode communication objects.

4.2.2 Enable use of Mode Heat/Cool objects

This parameter shows/hides the Control_ and Status_ Mode Cool/Heat communication objects.

If set to “Disabled” the objects will not be shown.
If set to “Enabled” the Control_ and Status_ Mode Cool/Heat objects will appear.
- When a “1” value is sent to the Control_ communication object, Heat mode will be enabled in the indoor unit, and the Status_ object will return this value.
- When a “0” value is sent to the Control_ communication object, Cool mode will be enabled in the indoor unit, and the Status_ object will return this value.

4.2.3 Enable use of + / – object for Mode

This parameter shows/hides the Control_ Mode +/- communication object which let’s you change the indoor unit mode by using two different datapoint types.

If set to “Disabled” the object will not be shown.
If set to “Enabled” the Control_ Mode +/- object and a new parameter will appear.

Figure 4.11 Parameter detail

➢ DPT type for +/- Mode Object

This parameter lets choose between the datapoints 0-Up / 1-Down [DPT_1.008] and 0-Decrease / 1-Increase [DPT_1.007] for the Control_ Mode +/- object.

The sequence followed when using this object is shown below:

Keep in mind that depending on the indoor unit you have and the available features, Auto mode and Dry mode may not be present.

4.2.4 Enable use of bit-type Mode objects (for control)

This parameter shows/hides the bit-type Control_Mode objects.

If set to “no” the objects will not be shown.
If set to “yes” the Control_ Mode objects for Auto, Heat, Cool, Fan and Dry will appear. To activate a mode by using these objects a “1” value has to be sent.

4.2.5 Enable use of bit-type Mode objects (for status)

This parameter shows/hides the bit-type Status_ Mode objects.

If set to “no” the objects will not be shown.
If set to “yes” the Status_ Mode objects for Auto, Heat, Cool, Fan and Dry will appear.
When enabled, a mode will return a “1” through its bit-type object.

4.2.6 Enable use of Text object for Mode

This parameter shows/hides the Status_ Mode Text communication object.

If set to “no” the object will not be shown.
If set to “yes” the Status_ Mode Text object will appear. Also, in the parameters, will be shown five text fields, one for each mode, that will let modify the text string displayed by the Status_ Mode Text when changing mode.

Figure 4.12 Parameter detail

4.3 Global Fan Speed Configuration dialog

Figure 4.13 Default Fan Speed Configuration dialog

All the parameters in this section are related with the Fan Speed properties and communication objects.

4.3.1 DPT object type for fan speed

With this parameter is possible to change de DPT for the Control_ Fan Speed and Status_ Fan Speed byte-type communication objects. Datapoints Scaling (DPT_5.001) and Enumerated (DPT_5.010) can be selected.

When “Enumerated [DPT 5.010]” is selected, Control_ Fan Speed and Status_ Fan Speed communication objects for this DPT will appear. Also, depending on the number of fan speeds selected, these objects will be different.

The first fan speed will be selected if a “1” is sent to the Control_ object. The second
one will be selected sending a “2”, and the last one sending a “3”.
The Status_ object will always return the value for the fan speed selected.
Important: If a “0” value is sent to the Control_ object, the minimum fan speed will be selected. If a value bigger than “3” is sent to the Control_ object, then the maximum fan speed will be selected.
When “Scaling [DPT 5.001]” is selected, Control_ Fan Speed and Status_Fan Speed communication objects for this DPT will appear. Also, depending on the number of fan speeds selected, these objects will be different.

When a value between 0% and 49% is sent to the Control_ object the first fan speed will be selected.
When a value between 50% and 83% is sent to the Control_ object, the second speed will be selected.
When a value between 84% and 100% is sent to the Control_ object, the third speed will be selected.
The Status_ object will return a 33% when the first speed is selected, a 67% for the second one and a 100% for the third one.

4.3.2 Enable use of “Fan Speed Man/Auto” objects (for Control and Status)
This parameter shows/hides the Control_ Fan Speed Man/Auto and Status_ Fan Speed Man/Auto communication object which lets you set the Fan Speed into Manual or Auto mode.

4.3.3 Enable use of +/- object for Fan Speed

This parameter shows/hides the Control_ Fan Speed +/- communication object which lets you increase/decrease the indoor unit fan speed by using two different datapoint types.

If set to “no” the object will not be shown.
If set to “yes” the Control_ Fan Speed +/- object and a new parameter will appear.

➢ Fan speed +/- operation
This parameter lets choose between the datapoints 0-Up / 1-Down [DPT_1.008] and 0-Decrease / 1-Increase [DPT_1.007] for the Control_ Fan Speed +/- object.

➢ Sequence for +/- object
This parameter lets choose between the different modes available:

S1>S2>….>SN
Select this option if you don’t have Auto mode and you don’t want roll-over to be enabled.
S1>S2>….>SN>S1>…
Select this option if you don’t have Auto mode and you want roll-over to be enabled.
Auto>S1>S2>….>SN
Select this option if you have Auto mode and you don’t want roll-over to be enabled.
Auto>S1>S2>….>SN>Auto>S1>…
Select this option if you have Auto mode and you want roll-over to be enabled.

4.3.4 Enable use of bit-type Fan Speed objects (for Control)
This parameter shows/hides the bit-type Control_ Fan Speed objects.

If set to “no” the objects will not be shown.
If set to “yes” the Control_ Fan Speed objects for Speed 1, Speed 2 and Speed 3 (if available) will appear. To activate a Fan Speed by using these objects a “1” value has to be sent.

4.3.5 Enable use of bit-type Fan Speed objects (for Status)

This parameter shows/hides the bit-type Status_ Fan Speed objects.

If set to “no” the objects will not be shown.
If set to “yes” the Status_ Fan Speed objects for Speed 1, Speed 2 and Speed 3 (if available) will appear. When a Fan Speed is enabled, a “1” value is returned through its bittype object.

4.3.6 Enable use of Text object for Fan Speed

This parameter shows/hides the Status_ Fan Speed Text communication object.

If set to “no” the object will not be shown.
If set to “yes” the Status_ Fan Speed Text object will appear. Also, in the parameters, will be shown two (or three, depending on the number of fan speeds selected) text fields, one for each Fan Speed, that will let modify the text string displayed by the Status_Fan Speed Text when changing a fan speed.

Figure 4.15 Parameter detail

4.4 Global temperature configuration

Figure 4.20 Default Temperature Configuration dialog

All the parameters in this section are related with the Temperature properties and communication objects.

4.4.1 Enable use of +/- obj for Setpoint

This parameter shows/hides the Control_ Setpoint Temp +/- communication object which lets you change the indoor unit setpoint temperature by using two different datapoint types.

If set to “no” the object will not be shown.
If set to “yes” the Control_ Setpoint Temp +/- object and a new parameter will appear.

Figure 4.23 Parameter detail

➢ DPT type for +/- Setp Temp object
This parameter lets choose between the datapoints 0-Up / 1-Down [DPT_1.008] and 0-Decrease / 1-Increase [DPT_1.007] for the Control_ Setpoint Temp +/- object.
(Lower limit) 16ºC 17ºC … 31ºC 32ºC (Upper limit)
Up / Increase
Down / Decrease

4.4.2 Ambient Ref. Temp. is provided from KNX

This parameter shows/hides the Control_ Ambient Temperature communication object which lets you use an ambient temperature reference provided by a KNX device.

If set to “no” the object will not be shown.
If set to “yes” the Control_ Ambient Temperature object will appear. Meant to be enabled when you want the temperature provided by a KNX sensor to be the reference ambient temperature for the air conditioner. Then, the following formula applies for the calculation of real Control_ Setpoint Temperature sent ot the AC unit:
“AC Setp. Temp” = “Ambient ref. Temp” – (“KNX Amb. Temp.” – “KNX Setp Temp.”) Temp”)
- AC Setp. Temp: AC indoor unit setpoint temperature
- Ambient Ref. Temp: AC indoor unit return temperature
- KNX Amb. Temp.: Ambient temperature provided from KNX
- KNX Setp. Temp: Setpoint temperature provided from KNX
  As an example, consider the following situation:
  User wants: 19ºC (“KNX Setp. Temp.”)
  User sensor (a KNX sensor) reads: 21ºC (“KNX Amb Temp.”)
  Ambient temp. read by Haier system is: 24ºC (“Ambient Ref. Temp”)
  In this example, the final setpoint temperature that INKNXHAI0–C000will send out to the indoor unit (shown in “Setp. Temp.”) will become 24ºC – (21ºC – 19ºC) = 22ºC. This is the setpoint that will actually be requested to Haier unit.
  This formula will be applied as soon as the Control_ Setpoint Temperature and Control_ Ambient Temperature objects are written at least once from the KNX installation. After that, they are kept always consistent.
  Note that this formula will always drive the AC indoor unit demand in the right direction, regardless of the operation mode (Heat, Cool or Auto).

4.5 Control Mode configuration

Figure 4.20 Control Mode Configuration dialog

All the parameters in this section are related with the Mode properties and communication objects.

4.5.1 Enable use of Control Mode objects (for Control and Status)

This parameter shows/hides the Control_ Control Mode and Status_ Control Mode communication objects which lets you change the indoor unit control: No Central, LIFO (Last Input First Output), Central Controller and Lock Central Controller.

If set to “no” the objects will not be shown.
If set to “yes” the Control_ and Status_ Control Mode objects for No Central, LIFO (Last Input First Output), Central Controller, Lock Central Controller will appear.

4.5.1 Initial state of Control Mode

This parameter sets the initial value for the Control Mode: No Central, LIFO (Last Input First Output), Central Controller, Lock Central Controller or Do not initialize.

Figure 4.24 Parameter detail

If set to “Apply same initial state to all Indoor Units”, the parameter option selected will apply to all indoor units.
If set to “Initial state for each Indoor Unit might differ”, you will be able to set this parameter for each Indoor Unit individually.

4.6 Addressing of Indoor Units

Figure 4.24 Parameter detail

In this section you will be able to set the AC addressing for each AC unit present in the installation.

Modbus GW address of ACxx refers to the addres of the Haier Communication Addapters.
IDU index (in Modbus GW) of ACxx refers to the AC system address of the Indoor Unit.

4.7 License

Figure 4.24 Parameter detail

Use this section to introduce the migration code in case you need to update your box from another version different from the factory default one.

5 Technical Specifications

Enclosure	ABS (UL 94 V-0) de 2,5 mm / 1” thick Net dimensions (dxwxh): 71 x 71 x 27 mm / 2.8” x 2.8” x 1.1” Color: White RAL 9010	Operation Temperature	0ºC to +60ºC
Weight	42 g.	Stock Temperature	-20ºC to +85ºC
Power supply	Power is supplied by: 1 x KNX bus (29V DC, 7mA)	Operational Humidity	<90% RH, non-condensing
Terminal Wiring (for low-voltage signals)	For terminal: solid wires or stranded wires (twisted or with ferrule) 1 core: 0.5mm2… 2.5mm2 2 cores: 0.5mm2… 1.5mm2 3 cores: not permitted	Stock Humidity	<90% RH, non-condensing
KNX port	1 x KNX TP1 (EIB) port opto-isolated. Plug-in terminal block (2 poles). TNV-1	Isolation voltage	1500 VDC
AC unit port	1 x Specific connector Plug-in terminal block (3 poles)	Isolation resistance	1000 MΩ
Configuration	Configuration with ETS	Protection	IP20 (IEC60529)
LED indicators	1 x Onboard LED – Operational status

6 AC Unit Types compatibility.

A list of Haier indoor unit model references compatible with INKNXHAI0- C000and their available features can be found in:
intesis_inxxxhaixxxc000_ac_compatibility-list [PDF]

7 Error Codes

Error Code in KNX Object	Error in Remote Controller	Category	Error Name
1	1	Indoor Unit	Indoor ambient temp.sensor TA (Tas) failure
2	2		Indoor gas pipe temp. sensor TC1 failure
3	3		Indoor liquid pipe temp. sensor TC2 failure
4	4		Dual heat source sensor TW failure
5	5		Indoor EEPROM failure
6	6		Communication between indoor and outdoor failure
7	7		Communication between indoor and wired controller failure
8	8		Indoor float switch failure
9	9		Indoor address repeated failure
10	10		Reserved
11	11		Reserved
12	12		No 50 Hz zero passage signal
13	13		Coil sensor TC3 failure
14	14		DC motor failure
15	15		Indoor ambient temp.sensor TA (Taf) failure
16	16		–
17	17	Outdoor Unit	–
18	18		–
19	19		–
20	20		Defrosting temp. sensor Tdef1 failure Defrosting temp. sensor Tdef2 failure
21	21		Ambient temp. sensor Ta failure
22	22		Suction temp. sensor Ts1 failure Suction temp. sensor Ts2 failure Suction temp. sensor Tsacc failure Suction temp. sensor Tsuc failure
23	23		Discharging temp. sensor Tdi failure Discharging temp. sensor Td1 failure Discharging temp. sensor Td2 failure
24	24		Oil temp. sensor Toilp failure Oil temp. sensor Toil failure
25	25		Inlet temp. of heat exchanger Toci1 failure Inlet temp. of heat exchanger Toci2 failure
26	26		indoor communication failure Reduce the number of indoor units failure Increase the number of indoor units failure
27	27		Oil temp. too high protection (Toil) Oil temp. too high protection (Toi2)
28	28		High pressure sensor Pd1 failure High pressure sensor Pd2 failure
29	29		Low pressure sensor Ps failure
30	30		High pressure switch HPSi failure High pressure switch HPS1 failure High pressure switch HPS2 failure
31	31		Liquid pipe pressure Pl failure
32	32		Outlet temp. of subcooler Tsco failure Liquid pipe SC temp. of subcooler Tliqsc failure
33	33		EEPROM (AT24C04) failure
34	34		Discharging temp. too high protection (Tdi) Discharging temp. too high protection (Td1) Discharging temp. too high protection (Td2)
35	35		4-way valve reversing failure 4-way valve reversing failure
36	36		Oil temp. too low protection (Toil) Oil temp. too low protection (Toi2)
37	37		Lack of phase of 3N power supply or wrong phase sequence
38	38		High pressure sensor Pd too low protection
39	39		Low pressure sensor Ps too low protection Compression ratio too high protection Compression 1 ratio too low protection Compression 2 ratio too low protection
40	40		High pressure sensor Pd1 too high protection High pressure sensor Pd2 too high protection
41	41		Water temp. Twi too low protection Water temp. Twi too high protection
42	42		Frost protection of water system Water system out of water freeze protection Water flow of Water system is too small to protect
43	43		Discharging temp. sensor Tdi too low protection Discharging temp. sensor Td1 too low protection Discharging temp. sensor Td2 too low protection

44	44		Low pressure sensor PS too high protection
45	45		Communication among outdoors failure
46	46		Communication with inverter board 1 failure Communication with inverter board 2failure
47	47		–
48	48		Unloading valve SV1 failure
49	49		–
50	50
51	51		–
52	52		–
53	53		Current detector CT1 failure
54	54		Communication with Thermal storage module failure
55	55		Thermal storage module LEV failure
56	56		Thermal storage module too hot failure
57	57		Communication between Thermal storage module and host computer
58	58		Thermal storage module Tc1 temp. sensor failure
59	59		Thermal storage module Tc2 temp. sensor failure
60	60		Reserved
61	61		Reserved
62	62		Reserved
63	63		Thermal storage module DIP setting failure
64	64		CT1 over current CT2 over current
65	65		–
66	66		–
67	67		Communication with motor driving board failure
68	68		–
69	69		–
70	70		–
71	71		Left DC motor blocked Right DC motor blocked
72	72		Left DC motor reversed Right DC motor reversed
73	73		Left DC motor current too high Right DC motor current too high
74	74		–
75	75		No pressure drop between high pressure and low one Pressure too low between high pressure and low one
76	76		Incorrect outdoor address or capacity setting
77	77		Oil equalization protection among outdoors
78	78		Lack of refrigerant in cooling Lack of refrigerant in heating
79	79		Incorrect wiring
80	80		Indoor and outdoor do not match
81	81		Model temp. too high protection
82	82		Compressor current protection
83	83		Wrong model selection
84	84		–
85	85		–
86	86		–
87	87		–
88	88		–
89	89		–
90	90		–
91	91		–
92	92		–
93	93		–
94	94		–
95	95		–
96	96		–
97	97		–
98	98		–
99	99		Program self-test failure
100	100		DC motor driving board IPM alarm
101	101		DC motor driving board detecting out of control
102	102		DC motor driving board EEPROM faulty
103	103		DC motor driving board over current or current detector damaged
104	104		Voltage too low protection of DC motor driving board
105	105		Voltage too high protection of DC motor driving board
106	106		DC motor driving board blocked
107	107		Protection of motor rate over Limitation
108	108	–
109	109	–
110	110	model 1 Over current model 2 Over current

111	111		Compressor 1 out of control Compressor 2 out of control
112	112		Radiator of model 1 temp. too high Radiator of model 2 temp. too high
113	113		model 1 overload model 2 overload
114	114		Voltage too low of model 1 Voltage too low of model 2
115	115		Voltage too high of model 1 Voltage too high of model 2
116	116		Communication abnormal with model 1 Communication abnormal with model 2
117	117		Model 1 Over current (software) Model 1 Over current (software)
118	118		Model 1 startup failure Model 2 startup failure
119	119		Current Detecting Circuit Abnormal of transducer 1 Current Detecting Circuit Abnormal of transducer 2
120	120		Power supply of transducer 1 abnormal Power supply of transducer 2 abnormal
121	121		Power supply of inverter board 1 is abnormal Power supply of inverter board 2 is abnormal
122	122		Radiator temp. sensor of transducer 1 abnormal Radiator temp. sensor of transducer 2 abnormal
123	123		–
124	124		–
125	125		Compressor 1 frequency not match Compressor 2 frequency not match
126	126		–
127	127		MCU reset abnormal
128	128		MCU Program needs to be upgraded
0	N/A	KNX interface	No error
65535 (-1)	N/A	KNX interface	Indoor Units not ready for communication
65436 (-100)	N/A	KNX interface	License Error / indoor unit not supported by current license
65336 (-200)	N/A	KNX interface	Overconsumption error in EXY bus

In case you detect an error code not listed, contact your nearest Haier technical support service for more information on the error meaning.

Appendix A – Communication Objects Table

SECTION	OBJECT NUMBER	NAME	LENGTH	DATAPOINT TYPE		FLAGS				FUNCTION
SECTION	OBJECT NUMBER	NAME	LENGTH	DPT_NAME	DPT_ID	R	W	T	U	FUNCTION
On/Off	1	Control_ On/Off	1 bit	DPT_Switch	1.001		W	T		0 – Off; 1-On
Mode	2	Control_ Operating Mode	1 byte	DPT_HVACMode	20.102		W	T		0 – Auto; 1 – Com; 2 – Stan; 3 – Eco; 4 – Pro
	3	Control_ Mode	1 byte	DPT_HVACControl	20.105		W	T		0 – Auto; 1 – Heat; 3 – Cool; 9 – Fan; 14 – Dry
	4	Control_ Mode Cool/Heat	1 bit	DPT_Cool/Heat	1.100		W	T		0 – Cool; 1 – Heat
	5	Control_ Mode Auto	1 byte	DPT_Scaling	5.001		W	T		1 – Auto
	6	Control_ Mode Heat	1 byte	DPT_Scaling	5.001		W	T		1 – Heat
	7	Control_ Mode Cool	1 bit	DPT_Bool	1.002		W	T		1 – Cool
	8	Control_ Mode Fan	1 bit	DPT_Bool	1.002		W	T		1 – Dry
	9	Control_ Mode Dry	1 bit	DPT_Bool	1.002		W	T		1 – Fan
	10	Control_ Mode +/-	1 bit	DPT_Step	1.007		W			0 – Decrease; 1 – Increase
	10	Control_ Mode +/-	1 bit	DPT_UpDown	1.008		W			0 – Up; 1 – Down
Fan Speed	11	Control_ Fan Speed / 3 Speeds	1 byte	DPT_Scaling	5.001		W	T		0%-49% – Speed 1; 50%-83% – Speed 2; 84%-100% Speed 3
	11	Control_ Fan Speed / 3 Speeds	1 byte	DPT_Enumerated	5.010		W	T		1 – Speed 1; 2 – Speed 2; 3 Speed 3
	12	Control_ Fan Speed Man/Auto	1 bit	DPT_Bool	1.002		W	T		0 – Manual; 1 – Auto
	13	Control_ Fan Speed 1	1 bit	DPT_Bool	1.002		W	T		1 – Fan Speed 1
	14	Control_ Fan Speed 2	1 bit	DPT_Bool	1.002		W	T		1 – Fan Speed 2
	15	Control_ Fan Speed 3	1 bit	DPT_Bool	1.002		W	T		1 – Fan Speed 3
	16	Control_ Fan Speed +/-	1 bit	DPT_Step	1.007		W	T		0 – Decrease; 1 – Increase
	16	Control_ Fan Speed +/-	1 bit	DPT_UpDown	1.008		W	T		0 – Up; 1 – Down

Temperature	17	Control_ Setpoint Temperature	2 byte	DPT_Value_Temp	9.001	W	T	17ºC to 30ºC
	18	Control_ Setpoint Temp +/-	1 bit	DPT_Step	1.007	W		0 – Decrease; 1 – Increase
	18	Control_ Setpoint Temp +/-	1 bit	DPT_UpDown	1.008	W		0 – Up; 1 – Down
	19	Control_ Ambient Temperature	2 byte	DPT_Value_Temp	9.001	W	T	ºC value in EIS5 format
Control Mode	20	Control_ Control Mode No Central	1 bit	DPT_Bool	1.002	W	T	1 – No Central Controller
	21	Control_ Control Mode LIFO	1 bit	DPT_Bool	1.002	W	T	1 – Last Input First Output (LIFO)
	22	Control_ Control Mode Central	1 bit	DPT_Bool	1.002	W	T	1 – Central Controller
	23	Control_ Control Mode Lock	1 bit	DPT_Bool	1.002	W	T	1 – Lock Central Controller

On/Off	24	Status_ On/Off	1 bit	DPT_Switch	1.001	R	T	0 – Off; 1-On
Mode	25	Status_ Operating Mode	1 byte	DPT_HVACMode	20.102	R	T	0 – Auto; 1 – Com; 2 – Stan; 3 – Eco; 4 – Pro
	26	Status_ Mode	1 byte	DPT_HVACContrMode	20.105	R	T	0 – Auto; 1 – Heat; 3 – Cool; 9 – Fan; 14 – Dry
	27	Status_ Mode Cool/Heat	1 bit	DPT_Heat/Cool	1.100	R	T	0 – Cool; 1 – Heat
	28	Status_ Mode Auto	1 bit	DPT_Bool	1.002	R	T	1 – Auto
	29	Status_ Mode Heat	1 bit	DPT_Bool	1.002	R	T	1 – Heat
	30	Status_ Mode Cool	1 bit	DPT_Bool	1.002	R	T	1 – Cool
	31	Status_ Mode Fan	1 bit	DPT_Bool	1.002	R	T	1 – Fan
	32	Status_ Mode Dry	1 bit	DPT_Bool	1.002	R	T	1 – Dry
	33	Status_ Mode Text	14 byte	DPT_String_8859_1	16.001	R	T	ASCII String
Fan Speed	34	Status_ Fan Speed / 3 Speeds	1 byte	DPT_Scaling	5.001	R	T	33% – Speed 1; 67% – Speed 2; 100% – Speed 3
	34	Status_ Fan Speed / 3 Speeds	1 byte	DPT_Enumerated	5.010	R	T	1 – Speed 1; 2 – Speed 2; 3 – Speed 3
	35	Status_ Fan Speed Man/Auto	1 bit	DPT_Bool	1.002	R	T	0 – Manual; 1 – Auto

	36	Status_ Fan Speed 1	1 bit	DPT_Bool	1.002	R		T	1 – Speed 1
	37	Status_ Fan Speed 2	1 bit	DPT_Bool	1.002	R		T	1 – Speed 2
	38	Status_ Fan Speed 3	1 bit	DPT_Bool	1.002	R		T	1 – Speed 3
	39	Status_ Fan Speed Text	14 byte	DPT_String_8859_1	16.001	R		T	ASCII String
Temperature	40	Status_ AC Setpoint Temp	2 byte	DPT_Value_Temp	9.001	R		T	16ºC to 32ºC
Temperature	41	Status_ AC Ambient Ref Temp	2 byte	DPT_Value_Temp	9.001	R		T	ºC value in EIS5 format
Error	42	Status_ Error/Alarm	1 bit	DTP_Alarm	1.005	R		T	0 – No Alarm; 1 – Alarm
	43	Status_ Error Code	2 byte	Enumerated		R		T	0 – No Error; Any other see user’s manual
	44	Status_ Error Text code	14 byte	DPT_String_8859_1	16.001	R		T	2 char Haier Error; Empty – none
Control Mode	45	Control_ Control Mode No Central	1 bit	DPT_Bool	1.002		W	T	1 – No Central Controller
	46	Control_ Control Mode LIFO	1 bit	DPT_Bool	1.002		W	T	1 – Last Input First Output (LIFO)
	47	Control_ Control Mode Central	1 bit	DPT_Bool	1.002		W	T	1 – Central Controller
	48	Control_ Control Mode Lock	1 bit	DPT_Bool	1.002		W	T	1 – Lock Central Controller

NOTE: This addressing corresponds to the first AC indoor unit of the configuration. Communication objects for the rest of AC units are consecutively listed.

Intesis Hitachi Air Conditioners Manual

ItsManual — Wed, 19 Jul 2023 17:49:57 +0000

Intesis AC interfaces
for Hitachi Air Conditioners

Intesis portfolio for Hitachi Air Conditioning systems ensures a perfect interconnection between the most extensively used protocols in Home and Building Automation and Hitachi AC systems.
Intesis products make it easy to meet Hitachi integration needs, enabling full control from VRF systems to the Yutaki air to the water system.


	IN485UNI001I000 Universal Infrared AC 1 Indoor Unit	INBACHIT001R000 Commercial & VRF Systems BACnet IP and MS/TP 1 Indoor Unit	INBACHITXXXO000 VRF Systems BACnet IP and MS/TP 16/64 Indoor Units


	INKNXUNI001I000 Universal Infrared AC 1 I.U. with Binary Inputs	INKNXHIT001R000 VRF Systems 1 I.U. with Binary Inputs	INKNXHITXXXO000 VRF Systems 16/64 Indoor Units	INKNXHIT001A000 A2W 1 Indoor Unit


	IN485UNI001I000 Universal Infrared AC 1 Indoor Unit	INMBSHIT001R000 VRF Systems Modbus RTU 1 Indoor Unit	INMBSHITXXXO000 VRF Systems Modbus TCP/RTU 16/64 Indoor Units


	INWMPUNI001I000 Universal Infrared AC 1 Indoor Unit	INMBSHITXXXO000 VRF Systems 16/64 Indoor Units


	INWFIUNI001I000 Universal Infrared AC 1 I.U. Binary Inputs

Connected to Hitachi wired remote controllers bus

Connected to Hitachi Outdoor Units

Intesis Air Conditioning Interfaces
Intesis offers high-quality Air Conditioner interfaces for the integration of climate systems into BACnet, KNX, Modbus, and 2.4 GHz wireless installations.
Enjoy the benefit of working with the market leader in the field of Air Conditioning integration that offers highly reliable solutions developed in collaboration with all major AC manufacturers.

HMS Networks – Contact

HMS is represented all over the world.
Find your nearest contact here: www.hms-networks.com/contact

http://www.hms-networks.com/contact

Learn more at www.intesis.com
Owned by HMS Industrial Networks, Intesis® is a registered trademark in the European Union and is trademarked in the rest of the world. Other marks and words belong to their respective companies. All other product or service names mentioned in this document are trademarks of their respective companies. All other product or service names mentioned in this document are trademarks of their respective companies.
Part No: INMPHI2021 Version 02.0/2021 – © HMS Industrial Networks – All rights reserved – HMS reserves the right to make modifications without prior notice.

Intesis AC Interfaces Samsung Air Conditioners Manual

ItsManual — Sun, 23 Jul 2023 17:09:54 +0000

Intesis AC interfaces
for Samsung Air Conditioners

Intesis has been working in collaboration with Samsung to offer highly reliable gateway solutions for the integration of Samsung Air Conditioner units into BMS systems over KNX, BACnet, Modbus, and Home Automation, Samsung trusts Intesis as their technology partner for building and home automation.
The Samsung portfolio includes innovative products to meet Samsung integration needs, allowing the control of both NASA and NO NASA Air Conditioner units.


IN485UNI001I000 Universal Infrared AC 1 Indoor Unit	INBACSAMXXXO000 NASA VRF Systems BACnet IP and MS/TP 4/8/16/64 I.U.


INKNXUNI001I000 Universal Infrared AC 1 Indoor Unit	INKNXSAMXXXO000 NASA VRF Systems 4/8/16/64 I.U.


IN485UNI001I000 Universal Infrared AC 1 Indoor Unit	INMBSSAM001R100 NASA AC Units Modbus RTU 1 Indoor Unit	INMBSSAM001R000 NO NASA AC Units Modbus RTU 1 Indoor Unit	INMBSSAMXXXO000 NASA VRF Systems Modbus TCP/RTU 4/8/16/64 Indoor Units


INWMPUNI001I000 Universal Infrared AC 1 Indoor Unit	INMBSSAMXXXO000 NASA VRF Systems 4/8/16/64 Indoor Units

INWFIUNI001I000
Universal Infrared AC
1 I.U. Binary Inputs

Connected to Samsung wired remote controllers bus

Connected to Samsung Outdoor Units

Intesis Air Conditioning Interfaces
Intesis offers high-quality Air Conditioner interfaces for the integration of climate systems into BACnet, KNX, Modbus and 2.4 GHz wireless installations.
Enjoy the benefit of working with the market leader in the field of Air Conditioning integration that offers highly reliable solutions developed in collaboration with all major AC
manufacturers.

HMS Networks – Contact
HMS is represented all over the world.
Find your nearest contact here:
www.hms-networks.com/contact

Learn more at www.intesis.com
Owned by HMS Industrial Networks, Intesis® is a registered trademark in the European Union and is trademarked in the rest of the world. Other marks and words belong to their respective companies. All other product or service names mentioned in this document are trademarks of their respective companies. All other product or service names mentioned in this document are trademarks of their respective companies.
Part No: INMPSM2021 Version 2.0/2021 – © HMS Industrial Networks – All rights reserved – HMS reserves the right to make modifications without prior notice.

Intesis AC Interface for Mitsubishi Electric AC Manual

ItsManual — Mon, 24 Jul 2023 06:58:28 +0000

Intesis AC Interface for Mitsubishi Electric AC User Guide

Introduction

The Intesis portfolio includes a wide variety of AC interfaces for the integration of Mitsubishi Electric Air Conditioners into the most popular home and building automation standard protocols.

In 2006, Intesis launched the first product able to integrate Mitsubishi Electric AC Systems into KNX that, shortly afterwards, was certified by the KNX organization. Now, after years of experience, the products from Intesis make it easy to connect Mitsubishi Electric connect units with all the most extensively used standard protocols on the market.

ASGRAE BACnet

IN485UNI001I000
Universal Infrared AC
1 Indoor Unit
INBACMIT001I100
Domestic, Mr.Slim and City Multi lines to BAC MSTP
1 Indoor Unit
INBACMIT001I000
Domestic, Mr.Slim and City Multi lines to BAC IP&MSTP
1 Indoor Unit

KNX

INKNXUNI001I000
Universal Infrared AC
1 I.U. with Binary Inputs
INKNXMIT001I000
Domestic, Mr.Slim and City Multi lines to KNX
1 Indoot Unit
INKNXMIT001I100
Domestic, Mr.Slim and City Multi lines to KNX
1 I.U. with Binary Inputs
INKNXMITXXXC000
City Multi systems
15/100 Indoor Units

Modbus

IN485UNI001I000
Universal Infrared AC
1 Indoor Unit
INMBSMIT001I000
Domestic, Mr.Slim and City Multi lines to Modbus RTU
1 Indoor Unit
INMBSMITXXXC00
City Multi systems Modbus TCP/RTU
50/100 Indoor Units

Home Automation

INWMPUNI001I000
Universal Infrared AC
1 Indoor Unit
INWMPMIT001I000
Domestic, Mr.Slim and City Multi lines to WiFi
1 Indoor Unit
INMBSMITXXXC000
City Multi systems
50/100 Indoor Units

AC

INWFIUNI001I000
Universal Infrared AC
1 I.U. Binary Inputs

Connected to Mitsubishi Electric Indoor Units

Connected to Mitsubishi Electric centralized controllers

Intesis Air Conditioning Interfaces

Intesis offers high quality Air Conditioner interfaces for the integration of climate systems into BACnet, KNX, Modbus and 2.4 GHz wireless installations.
Enjoy the benefit of working with the market leader in the field of Air Conditioning integration that offers highly reliable solutions developed in collaboration with all major AC manufacturers.

HMS Networks – Contact

HMS is represented all over the world.
Find your nearest contact here:

www.hms-networks.com/contact

Learn more at www.intesis.com

Owned by HMS Industrial Networks, Intesis® is a registered trademark in the European Union and is trademarked in the rest of the world. Other marks and words belong to their respective companies. All other product or service names mentioned in this document are trademarks of their respective companies. All other product or service names mentioned in this document are trademarks of their respective companies.
Part No: INMPME2021 Version 2.0/2021 – © HMS Industrial Networks – All rights reserved – HMS reserves the right to make modifications without prior notice.

Intesis LonWorks BACnet Server Gateway Manual

ItsManual — Tue, 29 Aug 2023 16:35:46 +0000

Intesis LonWorks BACnet Server Gateway

SAFETY INSTRUCTIONS

WARNING
Follow carefully this safety and installation instructions. Improper work may lead to serious harmful for your health and also may damage seriously the Intesis gateway and/or any other equipment connected to it.

The Intesis gateway must be installed by accredited electrician or similar technical personnel, following all the safety instructions given here and in accordance always with the country legislation for installation of electric equipment.
The Intesis gateway cannot be installed outdoors or exposed to direct solar radiation, water, high relative humidity or dust.
The Intesis gateway must only be installed in a restricted access location.
In case of wall mount, fix firmly the Intesis device on a not vibrating surface following the instructions next.
In case of DIN rail mount fix the Intesis device properly to the DIN rail following the instructions below.
Mounting on DIN rail inside a metallic cabinet properly connected to earth is recommended.
Disconnect always power of any wires before manipulating and connecting them to the Intesis gateway.
A power supply with an NEC Class 2 or Limited Power Source (LPS) and SELV rated is to be used.
Respect always the expected polarity of power and communication cables when connecting them to the Intesis gateway.
Supply always a correct voltage to power the Intesis device, see details of voltage range admitted by the device in the technical characteristics below.
CAUTION: Risk of Explosion if Battery is replaced by an Incorrect Type. Dispose of Used Batteries according to the instructions. Battery replacement shall be done by an authorized installer.
CAUTION: The device is to be connected only to networks without routing to the outside plant, all communication ports are considered for indoor only and can be connected SELV circuits only.
This device was designed for installation in an enclosure. To avoid electrostatic discharge to the unit in environments with static levels above 4 kV, precautions should be taken when the device is mounted outside an enclosure. When working in an enclosure (ex. making adjustments, setting switches etc.) typical anti-static precautions should be observed before touching the unit.
Safety instructions in other languages can be found at: https://intesis.com/docs/manuals/v6-safety

CONFIGURATION

Use the Configuration Tool to configure the gateway.
See instructions to download and install the latest version at: https://intesis.com/docs/software/intesis-maps-installer
Use the Ethernet connection or the Console Port (mini USB type B connector included) for communication between the gateway and the configuration tool. See CONNECTIONS below and follow instructions of user’s manual for more details.

INSTALLATION

Follow instructions next to properly install the gateway.
Disconnect from mains the power supply before connecting it to the Intesis gateway.
Disconnect power of any bus or communication cable before connecting it to the Intesis device.
Mount the Intesis gateway on the wall or DIN rail following the instruction given below, respecting the safety instructions given above.
Connect a NEC Class 2 or Limited Power Source (LPS) and SELV rated power supply to the Intesis gateway, respect the polarity if DC power or Line and Neutral if AC power. Apply always a voltage within the range admitted by the Intesis device and of enough power (see technical characteristics).
Circuit-breaker must be used before the power supply. Rating 250V-6A.
Connect the communication cables to the Intesis gateway, see details on the user’s manual.
Power the Intesis device and the rest of devices connected to it.

NOTE: The device cannot be installed in air-handling space.

Wall Mount

Separate the fixing clips in the bottom of the box, pushing them to the outside until hear the “click” which indicates that now the clips are in position for wall mount, see in the figure below.
Use the holes of the to fix the box in the wall using screws. Use the template below for the wall wholes.

DIN Rail Mount

With the clips of the box in their original position, insert first the box in the upper edge of the DIN rail and later insert the box in the down part of the rail, using a small screwdriver and following the steps in the figure below.

CONNECTIONS

Power Supply

Must use NEC Class 2 or Limited Power Source (LPS) and SELV rated power supply.

If using DC power supply:
Respect polarity applied of terminals (+) and (-). Be sure the voltage applied is within the range admitted (check table below). The power supply can be connected to earth but only through the negative terminal, never through the positive terminal.
If using AC power supply:
Make sure the voltage applied is of the value admitted (24 Vac). Do not connect any of the terminals of the AC power supply to earth, and make sure the same power supply is not supplying any other device.

Ethernet / BACnet IP (UDP) / Console (UDP & TCP)

Connect the cable coming from the IP network to the connector ETH of the gateway. Use an Ethernet CAT5 cable. If communicating through the LAN of the building, contact the network administrator and make sure traffic on the port used is allowed through all the LAN path (check the gateway user manual for more information). With factory settings, after powering up the gateway, DHCP will be enabled for 30 seconds. After that time, if no IP is provided by a DHCP server, the default IP 192.168.100.246 will be set.

PortA / LON

Connect the LON bus to connectors A3 (A), A4 (B) of gateway’s PortA. Connect A2 and cable shield to installation earth.

PortB / BACnet MSTP
Connect the EIA485 bus to connectors B1 (-), B2 (+) and B3 (SNGD) of gateway’s PortB. Remember the characteristics of the standard EIA485 bus: maximum distance of 1200 meters, maximum 32 devices connected to the bus, and in each end of the bus it must be a termination resistor of 120 Ω. Bus biasing and termination resistor for EIA485 can be enabled for PortB by means of a dedicated DIP switch – see table below.

Console Port
Connect a mini-type B USB cable from your computer to the gateway to allow communication between the Configuration Software and the gateway. Remember that Ethernet connection is also allowed. Check the user manual for more information.

USB
Connect a USB storage device (not a HDD) if required. Check the user manual for more information.

ELECTRICAL & MECHANICAL FEATURES

Enclosure

Plastic, type PC (UL 94 V-0)

Net dimensions (dxwxh): 90x88x56 mm

Recommended space for installation (dxwxh): 130x100x100mm Color: Light Grey. RAL 7035

Mounting

Wall.

DIN rail EN60715 TH35.

Terminal Wiring

(for power supply and low-voltage signals)

Per terminal: solid wires or stranded wires (twisted or with ferrule)

1 core: 0.5mm2… 2.5mm2 2 cores: 0.5mm2… 1.5mm2 3 cores: not permitted

If cables are more than 3.05 meters long, Class 2 cable is required.

Power

1 x Plug-in screw terminal block (3 poles) 9 to 36VDC +/-10%, Max.: 140mA.

24VAC +/-10% 50-60Hz, Max.: 127mA

Recommended: 24VDC

Ethernet

1 x Ethernet 10/100 Mbps RJ45

2 x Ethernet LED: port link and activity

Port A

1 x LON TP/FT-10 (Plug-in screw terminal block orange 2 poles)

A, B, Earth

1500VDC isolation from other ports

1 x Plug-in screw terminal block green (2 poles) Reserved for future use

Switch A

(SWA)

1 x DIP-Switch for PORT A configuration: Reserved for future use

PORT B

1 x Serial EIA232 (SUB-D9 male connector) Reserved for future use

1 x Serial EIA485 Plug-in screw terminal block (3 poles) A, B, SGND (Reference ground or shield) 1500VDC isolation from other ports

(except PORT B: EIA232)

Switch B

(SWB)

1 x DIP-Switch for serial EIA485 configuration: Position 1:

ON: 120 Ω termination active

Off: 120 Ω termination inactive

Position 2-3:

ON: Polarization active

Off: Polarization inactive

Battery	Size: Coin 20mm x 3.2mm Capacity: 3V / 225mAh Type: Manganese Dioxide Lithium
Console Port	Mini Type-B USB 2.0 compliant 1500VDC isolation
USB port	Type-A USB 2.0 compliant Only for USB flash storage device (USB pen drive) Power consumption limited to 150mA (HDD connection not allowed)
Push Button	Button A: Check the user manual Button B: Check the user manual
Operation Temperature	0°C to +60°C
Operational Humidity	5 to 95%, no condensation
Protection	IP20 (IEC60529)
LED Indicators	10 x Onboard LED indicators 2 x Run (Power)/Error 2 x Ethernet Link/Speed 2 x Port A TX/RX 2 x Port B TX/RX 1 x Button A indicator 1 x Button B indicator

Dimensions

This marking on the product, accessories, packaging or literature (manual) indicates that the product contains electronic parts and they must be properly disposed of by following the instructions at https://intesis.com/weee-regulation

Intesis BACnet Server gateway INBACPAN O000 Manual

ItsManual — Fri, 08 Sep 2023 17:42:05 +0000

Intesis BACnet Server gateway Installation Guide

*** stands for the Intesis gateway capacity and varies depending on the specific gateway acquired

Owner’s Record
The serial number is located at the rear of the gateway. Record this information in the space provided below. Refer to it whenever you contact upon your gateway dealer or support team regarding this product.

Serial No.

SAFETY INSTRUCTIONS

The Intesis device must be installed by accredited electrician or similar technical personnel, following all the safety instructions given here and in accordance always with the country legislation for installation of electric equipment.
The Intesis device cannot be installed outdoors or exposed to direct solar radiation, water, high relative humidity or dust.
The Intesis gateway must only be installed in a restricted access location.
In case of wall mount, fix firmly the Intesis gateway on a not vibrating surface following the instructions next.
In case of DIN rail mount fix the Intesis device properly to the DIN rail following the instructions below.
Mounting on DIN rail inside a metallic cabinet properly connected to earth is recommended.
Disconnect always power of any wires before manipulating and connecting them to the Intesis gateway.
A power supply with an NEC Class 2 or Limited Power Source (LPS) and SELV rated is to be used.
Respect always the expected polarity of power and communication cables when connecting them to the Intesis gateway.
Supply always a correct voltage to power the Intesis gateway, see details of voltage range admitted by the device in the technical characteristics below.
CAUTION: Risk of Explosion if Battery is replaced by an Incorrect Type. Dispose of Used Batteries according to the instructions. Battery replacement shall be done by an authorized installer.
CAUTION: The device is to be connected only to networks without routing to the outside plant, all communication ports are considered for indoor only and can be connected SELV circuits only.
This device was designed for installation in an enclosure. To avoid electrostatic discharge to the unit in environments with static levels above 4 kV, precautions should be taken when the device is mounted outside an enclosure. When working in an enclosure (ex. making adjustments, setting switches etc.) typical anti-static precautions should be observed before touching the unit.

Safety instructions in other languages can be found at:
https://intesis.com/docs/manuals/v6-safety

CONFIGURATION

Use the Configuration Tool to configure the gateway.

See instructions to download and install the latest version at:
https://intesis.com/docs/software/intesis-maps-installer

Use the Ethernet connection or the Console Port (mini USB type B connector included) to get communication between the gateway and the configuration tool.

Follow instructions of the user’s manual for more details.

INSTALLATION

Follow instructions next to properly install the gateway.

Disconnect from mains the power supply before connecting it to the Intesis device.
Disconnect power of any bus or communication cable before connecting it to the Intesis gateway.
Mount the Intesis device on the wall or DIN rail following the instruction given below, respecting the safety instructions given above.
Connect a NEC Class 2 or Limited Power Source (LPS) and SELV rated power supply to the Intesis gateway, respect the polarity if DC power or Line and Neutral if AC power. Apply always a voltage within the range admitted by the Intesis gateway and of enough power (see technical characteristics).
Circuit-breaker must be used before the power supply. Rating 250V-6A.
Connect the communication cables to the Intesis gateway, see details on the user’s manual.
Power the Intesis device and the rest of devices connected to it.

NOTE: The device cannot be installed in air-handling space.

Wall Mount

Separate the fixing clips in the bottom of the box, pushing them to the outside until hear the “click” which indicates that now the clips are in position for wall mount, see in the figure below.
Use the holes of the to fix the box in the wall using screws. Use the template below for the wall wholes.

DIN Rail Mount

CONNECTIONS

Power Supply
Must use NEC Class 2 or Limited Power Source (LPS) and SELV rated power supply.

If using AC power supply:
Make sure the voltage applied is of the value admitted (24 Vac). Do not connect any of the terminals of the AC power supply to earth, and make sure the same power supply is not supplying any other device.

Ethernet / BACnet IP (UDP) / Console (UDP & TCP)
Connect the cable coming from the IP network to the connector ETH of the gateway. Use an Ethernet CAT5 cable. If communicating through the LAN of the building, contact the network administrator and make sure traffic on the port used is allowed through all the LAN path (check the gateway user manual for more information). With factory settings, after powering up the gateway, DHCP will be enabled for 30 seconds. After that time, if no IP is provided by a DHCP server, the default IP 192.168.100.246 will be set.

PortA / P-Link Panasonic
Connect the P-Link terminals of Panasonic Outdoor Unit to the connectors A3 and A4 of gateway’s PortA. There is no polarity to be respected.

PortB / BACnet MSTP
Connect the EIA485 bus to connectors B1 (B+), B2 (A-) and B3 (SNGD) of gateway’s PortB. Respect the polarity.

Note for PortB; Remember the characteristics of the standard EIA485 bus: maximum distance of 1200 meters, maximum 32 devices connected to the bus, and in each end of the bus it must be a termination resistor of 120 Ω. Bus biasing and termination resistor for EIA485 can be enabled for PortB by means of a dedicated DIP switch – see table below.

USB
Connect a USB storage device (not a HDD) if required. Check the user manual for more information.

ELECTRICAL & MECHANICAL FEATURES

https://www.intesis.com

Intesis Hitachi VRF to BACnet Server gateway INBACHIT O000 Manual

ItsManual — Mon, 11 Sep 2023 09:03:04 +0000

Intesis Hitachi VRF to BACnet Server gateway

SAFETY INSTRUCTIONS

The Intesis device must be installed by accredited electrician or similar technical personnel, following all the safety instructions given here and in accordance always with the country legislation for installation of electric equipment.

The Intesis device cannot be installed outdoors or exposed to direct solar radiation, water, high relative humidity or dust.

The Intesis gateway must only be installed in a restricted access location.
In case of wall mount, fix firmly the Intesis gateway on a not vibrating surface following the instructions next.

In case of DIN rail mount fix the Intesis device properly to the DIN rail following the instructions below.

Mounting on DIN rail inside a metallic cabinet properly connected to earth is recommended.

Disconnect always power of any wires before manipulating and connecting them to the Intesis gateway.

A power supply with an NEC Class 2 or Limited Power Source (LPS) and SELV rated is to be used.

Respect always the expected polarity of power and communication cables when connecting them to the Intesis gateway.

Supply always a correct voltage to power the Intesis gateway, see details of voltage range admitted by the device in the technical characteristics below.

CAUTION: Risk of Explosion if Battery is replaced by an Incorrect Type. Dispose of Used Batteries according to the instructions. Battery replacement shall be done by an authorized installer.

CAUTION: The device is to be connected only to networks without routing to the outside plant, all communication ports are considered for indoor only and can be connected SELV circuits only.

This device was designed for installation in an enclosure. To avoid electrostatic discharge to the unit in environments with static levels above 4 kV, precautions should be taken when the device is mounted outside an enclosure. When working in an enclosure (ex. making adjustments, setting switches etc.) typical anti-static precautions should be observed before touching the unit.
Safety instructions in other languages can be found at https://intesis.com/docs/manuals/v6-safety

CONFIGURATION

Use the Configuration Tool to configure the gateway.
See instructions to download and install the latest version at: www.intesis.com/docs/software/intesis-maps-installer
Use the Ethernet connection or the Console Port (mini USB type B connector included) to get communication between the gateway and the configuration tool.
Follow instructions of the user’s manual for more details.

INSTALLATION

Follow instructions next to properly install the gateway.
Disconnect from mains the power supply before connecting it to the Intesis device.
Disconnect power of any bus or communication cable before connecting it to the Intesis gateway.
Mount the Intesis device on the wall or DIN rail following the instruction given below, respecting the safety instructions given above.
Connect a NEC Class 2 or Limited Power Source (LPS) and SELV rated power supply to the Intesis gateway, respect the polarity if DC power or Line and Neutral if AC power. Apply always a voltage within the range admitted by the Intesis gateway and of enough power (see technical characteristics).
Circuit-breaker must be used before the power supply. Rating 250V6A.
Connect the communication cables to the Intesis device, see details on the user’s manual.
Power the Intesis gateway and the rest of devices connected to it.

NOTE: The device cannot be installed in air-handling space.

Wall Mount

Separate the fixing clips in the bottom of the box, pushing them to the outside until hear the “click” which indicates that now the clips are in position for wall mount, see in the figure below.
Use the holes of the to fix the box in the wall using screws.
Use the template below for the wall wholes.

DIN Rail Mount

CONNECTIONS

Power Supply
Must use NEC Class 2 or Limited Power Source (LPS) and SELV rated power supply.

PortA / H-Link Hitachi
Connect the H-Link terminals (TB2) of Hitachi Outdoor Unit to the connectors A3 and A4 of gateway’s PortA.
There is no polarity to be respected.

PortB / BACnet MSTP
Connect the EIA485 bus to connectors B1 (B+), B2 (A-) and B3 (SNGD) of gateway’s PortB. Respect the polarity.

Note for PortB; Remember the characteristics of the standard EIA485 bus: maximum distance of 1200 meters, maximum 32 devices connected to the bus, and in each end of the bus it must be a termination resistor of 120 Ω. Bus biasing and termination resistor for EIA485 can be enabled for PortB by means of a dedicated DIP switch – see table below.

USB
Connect a USB storage device (not a HDD) if required. Check the user manual for more information.

ELECTRICAL & MECHANICAL FEATURES

Enclosure	Plastic, type PC (UL 94 V-0) Net dimensions (dxwxh): 90x88x56 mm Recommended space for installation (dxwxh): 130x100x100mm Color: Light Grey. RAL 7035
Mounting	Wall. DIN rail EN60715 TH35
Terminal Wiring (for power supply and low-voltage signals)	Per terminal: solid wires or stranded wires (twisted or with ferrule) 1 core: 0.5mm2… 2.5mm2 2 cores: 0.5mm2… 1.5mm2 3 cores: not permitted If cables are more than 3.05 meters long, Class 2 cable is required
Power	1 x Plug-in screw terminal block (3 poles) 9 to 36VDC +/-10%, Max.: 140mA. 24VAC +/-10% 50-60Hz, Max.: 127mA Recommended: 24VDC
Ethernet	1 x Ethernet 10/100 Mbps RJ45 2 x Ethernet LED: port link and activity
Port A	1 x H-Link Plug-in screw terminal block orange (2 poles) 1500VDC isolation from other ports 1 x Plug-in screw terminal block green (2 poles) Reserved for future use
Switch A (SWA)	1 x DIP-Switch for PORT A configuration: Reserved for future use
PORT B	1 x Serial EIA232 (SUB-D9 male connector) Reserved for future use 1 x Serial EIA485 Plug-in screw terminal block (3 poles) A, B, SGND (Reference ground or shield) 1500VDC isolation from other ports (except PORT B: EIA232)
Switch B (SWB)	1 x DIP-Switch for serial EIA485 configuration: Position 1: ON: 120 Ω termination active Off: 120 Ω termination inactive Position 2-3: ON: Polarization active Off: Polarization inactive
Battery	Size: Coin 20mm x 3.2mm Capacity: 3V / 225mAh Type: Manganese Dioxide Lithium
Console Port	Mini Type-B USB 2.0 compliant 1500VDC isolation
USB port	Type-A USB 2.0 compliant Only for USB flash storage device (USB pen drive) Power consumption limited to 150mA (HDD connection not allowed)
Push Button	Button A: Check the user manual Button B: Check the user manual
Operation Temperature	0°C to +60°C
Operational Humidity	5 to 95%, no condensation
LED Indicators	10 x Onboard LED indicators 2 x Run (Power)/Error 2 x Ethernet Link/Speed 2 x Port A TX/RX 2 x Port B TX/RX 1 x Button A indicator 1 x Button B indicator

Intesis BACnet IP Server gateway INBACPAN128O000 Manual

ItsManual — Mon, 11 Sep 2023 09:15:11 +0000

INBACPAN128O000

Panasonic VRF to BACnet IP Server gateway
Order Code: INBACPAN128O000

Owner’s Record

The serial number is located at the rear of the gateway. Record this information in the space provided below. Refer to it whenever you contact upon your gateway dealer or support team regarding this product.

Serial No.___________________________

SAFETY INSTRUCTIONS

WARNING

Follow carefully this safety and installation instructions. Improper work may lead to serious harmful for your health and also may damage seriously the Intesis gateway and/or any other equipment connected to it.

The Intesis device cannot be installed outdoors or exposed to direct solar radiation, water, high relative humidity or dust.

The Intesis gateway must only be installed in a restricted access location.

In case of wall mount, fix firmly the Intesis gateway on a not vibrating surface following the instructions next.

In case of DIN rail mount fix the Intesis device properly to the DIN rail following the instructions below.

Mounting on DIN rail inside a metallic cabinet properly connected to earth is recommended.

Disconnect always power of any wires before manipulating and connecting them to the Intesis gateway.

A power supply with an NEC Class 2 or Limited Power Source (LPS) and SELV rated is to be used.

Respect always the expected polarity of power and communication cables when connecting them to the Intesis gateway.

Supply always a correct voltage to power the Intesis gateway, see details of voltage range admitted by the device in the technical characteristics below.

CAUTION: Risk of Explosion if Battery is replaced by an Incorrect Type. Dispose of Used Batteries according to the instructions. Battery replacement shall be done by an authorized installer.

CAUTION: The device is to be connected only to networks without routing to the outside plant, all communication ports are considered for indoor only and can be connected SELV circuits only.

Safety instructions in other languages can be found at:
https://intesis.com/docs/manuals/v6-safety

CONFIGURATION

Use the Configuration Tool to configure the gateway.

See instructions to download and install the latest version at:
https://intesis.com/docs/software/intesis-maps-installer

Use the Ethernet connection or the Console Port (mini USB type B connector included) to get communication between the gateway and the configuration tool.

Follow instructions of the user’s manual for more details.

INSTALLATION

Follow instructions next to properly install the gateway.

Disconnect from mains the power supply before connecting it to the Intesis device.

Disconnect power of any bus or communication cable before connecting it to the Intesis gateway.

Mount the Intesis device on the wall or DIN rail following the instruction given below, respecting the safety instructions given above.

Connect a NEC Class 2 or Limited Power Source (LPS) and SELV rated power supply to the Intesis gateway, respect the polarity if DC power or Line and Neutral if AC power. Apply always a voltage within the range admitted by the Intesis gateway and of enough power (see technical characteristics).

Circuit-breaker must be used before the power supply. Rating 250V6A.

Connect the communication cables to the Intesis device, see details on the user’s manual.

Power the Intesis gateway and the rest of devices connected to it.

NOTE: The device cannot be installed in air-handling space.

Wall Mount

Separate the fixing clips in the bottom of the box, pushing them to the outside until hear the “click” which indicates that now the clips are in position for wall mount, see in the figure below.
Use the holes of the to fix the box in the wall using screws. Use the template below for the wall wholes.

DIN Rail Mount

CONNECTIONS

Power Supply
Must use NEC Class 2 or Limited Power Source (LPS) and SELV rated power supply.

Ethernet / BACnet IP (UDP) / Console (UDP & TCP)
Connect the cable coming from the IP network to the connector ETH of the gateway. Use an Ethernet CAT5 cable. If communicating through the LAN of the building, contact the network administrator and make sure traffic on the port used is allowed through all the LAN path (check the gateway user manual for more information).
With factory settings, after powering up the gateway, DHCP will be enabled for 30 seconds. After that time, if no IP is provided by a DHCP server, the default IP 192.168.100.246 will be set.

PortA / P-Link 1 Panasonic
Connect the P-Link terminals of Panasonic Outdoor Unit to the connectors A3 and A4 of gateway’s PortA. There is no polarity to be respected.

PortB / P-Link 2 Panasonic
Connect the P-Link terminals of Panasonic Outdoor Unit to the connectors B1 and B2 of gateway’s PortB. There is no polarity to be respected.

USB
Connect a USB storage device (not a HDD) if required. Check the user manual for more information.

ELECTRICAL & MECHANICAL FEATURES

Enclosure	Plastic, type PC (UL 94 V-0) Net dimensions (dxwxh): 90x88x56 mm Recommended space for installation (dxwxh): 130x100x100mm Color: Light Grey. RAL 7035	Battery	Size: Coin 20mm x 3.2mm Capacity: 3V / 225mAh Type: Manganese Dioxide Lithium
Mounting	Wall. DIN rail EN60715 TH35.	Console Port	Mini Type-B USB 2.0 compliant 1500VDC isolation
Terminal Wiring (for power supply and low-voltage signals)	Per terminal: solid wires or stranded wires (twisted or with ferrule) 1 core: 0.5mm2… 2.5mm2 2 cores: 0.5mm2… 1.5mm2 3 cores: not permittedIf cables are more than 3.05 meters long, Class 2 cable is required.	USB port	Type-A USB 2.0 compliant Only for USB flash storage device (USB pen drive) Power consumption limited to 150mA (HDD connection not allowed)
Power	1 x Plug-in screw terminal block (3 poles) 9 to 36VDC +/-10%, Max.: 140mA. 24VAC +/-10% 50-60Hz, Max.: 127mA Recommended: 24VDC	Push Button	Button A: Check the user manual Button B: Check the user manual
		Operation Temperature	0°C to +60°C
Ethernet	1 x Ethernet 10/100 Mbps RJ45 2 x Ethernet LED: port link and activity	Operational Humidity	5 to 95%, no condensation
Port A	1 x P-Link 1 Plug-in screw terminal block orange (2 poles) 1500VDC isolation from other ports 1 x Plug-in screw terminal block green (2 poles) Reserved for future use	Protection	IP20 (IEC60529)
Switch A (SWA)	1 x DIP-Switch for PORTA configuration: Reserved for future use (leave OFF, default)	LED Indicators	10 x Onboard LED indicators 2 x Run (Power)/Error 2 x Ethernet Link/Speed 2 x Port A TX/RX 2 x Port B TX/RX 1 x Button A indicator 1 x Button B indicator
PORT B	1 x Serial EIA232 (SUB-D9 male connector) Reserved for future use 1 x P-link 2 Plug-in screw terminal block (3 poles) 1500VDC isolation from other ports (except PORT B: EIA232)
Switch B (SWB)	1 x DIP-Switch for PORTB configuration: Reserved for future use (leave OFF, default)

Rev.1.0

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