ΕΝΕΡΓΕΙΑΚΗ ΔΙΑΧΕΙΡΙΣΗ ΣΕ ΕΞΥΠΝΑ ΚΤΙΡΙΑ ΝΕΑΣ ΤΕΧΝΟΛΟΓΙΑΣ KONNEX/EIB Π. ΡΩΜΑΝΟΣ

ΕΝΕΡΓΕΙΑΚΗ ΔΙΑΧΕΙΡΙΣΗ ΣΕ ΕΞΥΠΝΑ ΚΤΙΡΙΑ ΝΕΑΣ ΤΕΧΝΟΛΟΓΙΑΣ KONNEX/EIB Π. ΡΩΜΑΝΟΣ

KNX/EIB Technology (1) Lighting Heating Blinds Lightdependent Roomdependent Time-dependent Weatherdependent Central Infrared

Different Media Common Logo Unified object defintions / Run-time Interworking system mode S easy mode E NEW Configuration interworking A A-2000 mode A Run-time Interworking Data point types Functional blocks Application models NEW PC based tool Push- Button Controller Log. Tag (& supervised) Configuration- Master NEW extended Point to Point Addressing, communication and transport Network/Device- Management Unified kernel Media Twisted Pair TP 0 & 1 Powerline PL 110 + PL 132 RF NEW IP NEW Media coupler between media

EIB/KNX Interworking Transmission medium Bus - coupling Application - Application - Planning unit coupling module software software Commissioning Service Diagnostics applications Installation of various functions TP (Twisted Pair) PL (Power Line) Regulations RF (Radio Frequency) Ethernet (KNX over IP) or contained in product EIBA E-mode A-mode Tool Software S-mode (ETS)

Devices from different manufacturers and functional areas that are labelled with the KNX/EIB trademark and using the same configuration mechanism can be linked to form a functioning installation. It is foreseen that ETS in future versions will also allow the linking of non S-mode configured products. KNX/EIB systems can be easily installed by each trained EIB installer because there is only one Planning & Maintenance software tool on your pc, i.e ETS which stands for Engineering Tool Sofware. This software tool does not require any programtechnical knowledge. Each installer, who got a training according to the Konnex requirements may advertise with the EIB Partner logo and will be integrated in an international database.

More than 6.500 registered and certified products (including legacy solutions) More than 100 Konnex members More than 90 recognised training centres More than 5 European test sites More than 50.000 realised projects More than 15 million installed products (until mid 2003)

Increased safety Economic use of energy during the operation of buildings Simple adaptation of the electrical installation to the changing requirements of the user Higher degree of convenience Future-proof installations Wide range of available off-the-shelf components from many manufacturers Large service network of qualified contractors/planners/integrators

Integration of different applications in a building Garage doors Alarm system Solar collector control Store Home Computer Telephone Intercom Fax Heating Lighting Airco Small domestic appliances KNX/EIB hotwater Washing machine Stereo Dryer Television Dish washer Video refrigerator Cooker and microwave Extractor hood Watering

Basic Method of Operation P.A. : 1.1.2 GA : 5/2/66 1 1 P.A. : 1.1.1 GA : 5/2/66 230V KNX/EIB

Useful data of a TP1 telegram Source address Control field Target address Length Useful data Check byte Routing Counter 8 bit 16 16 + 1 3 4 Up to 16 x 8 8 bit L L L L 0 0 X X X X C CCC D D D D D D D D D D D D D D D D D D D D D D 0 0 0 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 1 Byte 0 Byte 1 Byte 2 Byte 15 The actual payload is explained here using the example of a 1-bit telegram. Legend C = Command D = Data (dependent on the data point type[dpt]) L = Length of the useful data (dependent on DPT) X = No evaluation Selected commands 0000 Value Read 0001 Value Response 0010 Value Write 1010 Memory Write

red black Signal Radiated noise DVC DVC DVC = Bus device

Cable lengths 700 m 350 m Ps Ch DVC DVC DVC Total length in one line 1000 m DVC DVC DVC DVC

Topology several areas PS SV / Ch Dr PS SV / Ch Dr LC 1 SV SV / / Dr Dr PS SV / Ch Dr SV SV / / Dr Dr LK 1 DVC TLN 64 1 SV SV / / Dr Dr BC 1 LK 1 BC n Hauptlinie BC 3 Area 3 Hauptlinie BC 2 Area 2 LK 1 Hauptlinie Area 1 Main line Area n LC 15 TLN 1 DVC 1 PS SV / Ch Dr SV SV / / Dr Dr DVC TLN 64 1 DVC 1 DVC 1 DVC 63 DVC63 DVC63 TLN 64 Line 1 DVC63 TLN 64 Line 15 DVC63 TLN 64 Linie 15 BC LC TLN = Backbone cou = Line coupler = Bus device

PS SV / Ch Dr Backbone line BC 1 Gateway PS SV / Ch Dr PS SV / Ch Dr LC 1 Main line = Line 0 PS SV / Ch Dr LC 15 Other systems DVC 1 DVC 1 Line 1 DVC 63 BC = Backbone coupler LC = Line coupler DVC = Bus device Line 15 Ps/Ch = Power supply unit with choke DVC 63

Bus devices - Parts of a bus device Installation bus Bus device PEI BCU AM PEI = Physical ext. interface BCU = Bus coupling unit AM = Application module

Powerline External conductor Neutral conductor PEI Transmission module PEI Transmission module Spread transmitter Spread transmitter Data Logical 1 (frequency) Logical 0 (frequency) Mains adapter Data Logical 1 (frequency) Logical 0 (frequency) Mains adapter Resemblance A Resemblance A Correlator Correlator Data Bit decision A>B? Logical 0 (frequency) Logical 1 (frequency) Data Bit decision A>B? Logical 0 (frequency) Logical 1 (frequency) Microcontroller Correlator Resemblance B Correlation receiver Microcontroller Correlator Resemblance B Correlation receiver

Training sequence Preamble field Telegram as for EIB-TP System ID 4 bits 2 x 8 bits Variable length 8 bits Additional 4 bits per 8 bits for error correction

Training sequence Preamble field Reply telegram 4 bits 2 x 8 bits 8 bits + 4 bits for error correction

Powerline KNX/EIB-TP1 Powerline area Media coupler Device 1 Device 256 Alternative repeater/ phase coupler Band-stop filter 3 x 230 V

Powerline 24 V power supply- PL-BC III Powerline - Area III Device 1 Device 256 Second floor First floor Area coupler data line PL-BC II PL-BC I Powerline - Area II Device 1 Device 256 Powerline - Area I Device 1 Device 256 Ground floor 3 x 230 V

ΚΤΙΡΙΟ ΓΕΩΡΓΙΑΔΗ ΓΕΡΑΚΑΣ ΑΤΤΙΚΗΣ

9 8 7 6 5 4 3 2 1 ΓΡΑΦΕΙΟ - ΚΑΤΑΣΤΗΜΑ ΧΩΡΟΣ ΓΡΑΦΕΙΩΝ ΚΟΥΖ. W.C. W.C. 13 14 15 16 12 17 11 10 4 1 3 2 (EΠΙΦ. 5.00 Μ²) (OΓΚΟΣ 14.00 Μ³) (EΠΙΦΑΝΕΙΑ 34.20 Μ²) (OΓΚΟΣ 95.80 Μ³) W.C. (EΠΙΦΑΝΕΙΑ 2.85 Μ²) (OΓΚΟΣ 8.00 Μ³) (EΠΙΦΑΝΕΙΑ 48.80 Μ²) (OΓΚΟΣ 136.60 Μ³) (EΠΙΦ. 6.10 Μ²) (OΓΚΟΣ 17.10 Μ³) ΕΙΣΟΔΟΣ (EΠΙΦ. 12.00 Μ²) (OΓΚΟΣ 33.60 Μ³) (EΠΙΦΑΝΕΙΑ 5.20 Μ²) (OΓΚΟΣ 14.60 Μ³) ΠΡΟΣ ΥΠΟΓΕΙΟ ΡΑΜΠΑ ΠΡΟΣ ΥΠΟΓΕΙΟ Ο. Γ. Ρ. Γ. + 1.00 + 1.00 11 10 12 13 14 15 16 17 + 1.00 Δ.Ε.Η. ±0.00 ΚΑΤΟΨΗ ΙΣΟΓΕΙΟΥ ΚΛΙΜΑΚΑ 1 : 50 ΜΑΪΟΣ 2003 5 4 3 2 1 ΕΞΩΣΤΗΣ -0.50 ΑΝΤΙΣΕΙΣΜΙΚΟΣ ΑΡΜΟΣ 5 EK. ±0.00 7 6 5 4 3 2 1 1 2 3 4 5 6 7 8 9 6 Ο. Γ. Ο Δ Ο Σ Μ Ι Α Ο Υ Λ Η Ρ. Γ. OIΚΟΔΟΜΗ ΓΕΩΡΓΙΑΔΟΥ ΣΤΟΝ ΓΕΡΑΚΑ EMBΑΔΟΝ KATAΣΤΗΜΑΤΟΣ : 48.10 Μ² EMB. ΧΩΡΟΥ ΓΡΑΦΕΙΩΝ ΜΕ ΒΟΗΘ. ΧΩΡ. : 69.70 Μ²

3,5 3 2,5 2 1,5 1 0,5 0 Solar Radiation on the North Wall, North Window and Roof, Using the HDKR Model 10:02 PM 7:57 AM 12:54 PM 5:51 PM 2:59 AM 10:49 PM 3:47 AM 8:44 AM 1:42 PM 6:40 PM 11:37 PM 4:35 AM 9:33 AM 2:30 PM 7:28 PM 12:26 AM 5:23 AM 10:21 AM 3:19 PM 8:16 PM 1:14 AM 6:11 AM 11:08 AM 4:06 PM 9:04 PM 2:01 AM 6:59 AM 11:57 AM 4:54 PM 9:52 PM 2:50 AM 7:47 AM 12:45 PM 5:43 PM 10:40 PM Time E_north_wa E_north_win E_horiz KWh

8 7 6 5 4 3 2 1 0 Total Solar Radiation Using the HDKR Model 10:02 PM 7:41 AM 12:30 PM 5:20 PM 10:10 PM 3:00 AM 7:50 AM 12:39 PM 5:29 PM 10:19 PM 3:09 AM 2:52 AM 7:59 AM 12:49 PM 5:38 PM 10:28 PM 3:18 AM 8:08 AM 12:58 PM 5:48 PM 10:37 PM 3:27 AM 8:16 AM 1:06 PM 5:56 PM 10:46 PM 3:35 AM 8:25 AM 1:15 PM 6:05 PM 10:55 PM 3:45 AM 8:34 AM 1:24 PM 6:14 PM 11:04 PM Time Eirr(HDKR) KWh

50 40 30 20 10 0-10 -20-30 Energy Losses by Windows, Doors, Wall Radiation, Internal, Lighting & Total Losses 10:02 PM 8:06 AM 1:08 PM 6:10 PM 3:04 AM 11:13 PM 4:15 AM 9:17 AM 2:20 PM 7:22 PM 12:24 AM 5:27 AM 10:29 AM 3:32 PM 8:34 PM 1:36 AM 6:39 AM 11:41 AM 4:43 PM 9:46 PM 2:48 AM 7:49 AM 12:52 PM 5:54 PM 10:57 PM 3:59 AM 9:01 AM 2:04 PM 7:06 PM 12:08 AM 5:11 AM 10:13 AM 3:15 PM 8:18 PM Time Εwin_door_etc ΕRad_wall Εinternal Τotal_Losses KWh

45 40 35 30 25 20 15 10 5 0 INDOOR TEMPERATURE VERSUS SETPOINT 12:00 AM 12:34 AM 1:09 AM 1:43 AM 2:18 AM 2:52 AM 3:26 AM 4:01 AM 4:35 AM 5:10 AM 5:44 AM 6:19 AM 6:53 AM 7:28 AM 8:02 AM 8:37 AM 9:11 AM 9:46 AM 10:20 AM 10:55 AM 11:29 AM 12:03 PM 12:38 PM 1:12 PM 1:47 PM 2:21 PM 2:56 PM 3:30 PM 4:05 PM 4:39 PM 5:14 PM 5:48 PM 6:22 PM 6:56 PM 7:31 PM 8:05 PM 8:39 PM 9:14 PM 9:48 PM 10:23 PM 10:57 PM 11:32 PM TIME Tin S.P. oc

Συμπεράσματα για τη Ψύξη C.O.P. = 0,28 αντί 2,8!!! Ψύξη 2.100BTU/h αντί 21.000BTU/h 19/9/2005: Λειτουργία κλιματιστικού 9 ώρες αντί 15 λεπτά 19/9/2005: Κατανάλωση 18.920 Wh αντί 600 Wh με κόστος 1,4 Ευρώ αντί 0,04 Δυνατότητα εξοικονόμησης ενέργειας περισσότερη από 90%!!!

4000 3500 3000 2500 2000 1500 1000 500 0 Boox and Air-conditioning Power Consumption on 9/8/2005 12:00 AM 1:23 AM 2:05 AM 2:46 AM 3:28 AM 4:09 AM 4:51 AM 12:42 AM 5:32 AM 6:14 AM 6:55 AM 7:37 AM 8:18 AM 9:00 AM 9:41 AM 10:23 AM 11:04 AM 11:46 AM 12:27 PM 1:08 PM 1:49 PM 2:31 PM 3:12 PM 3:54 PM 4:35 PM 5:17 PM 5:58 PM 6:40 PM 7:21 PM 8:03 PM 8:45 PM 11:04 PM 11:45 PM Time Pair-conditioning Pboox W

35 30 25 20 15 10 5 0 Ambient and Indoor Temperatures on 9/8/2005 12:00 AM 1:17 AM 1:55 AM 2:34 AM 3:12 AM 3:50 AM 4:29 AM 5:07 AM 5:45 AM 6:24 AM 12:38 AM 7:02 AM 7:41 AM 8:19 AM 8:57 AM 9:36 AM 10:14 AM 10:53 AM 11:31 AM 12:09 PM 12:48 PM 1:25 PM 2:03 PM 2:42 PM 3:20 PM 3:59 PM 4:37 PM 5:15 PM 5:54 PM 6:32 PM 7:11 PM 7:49 PM 8:27 PM 9:06 PM 11:22 PM Time Tambient Tboox oc

26 25,5 25 24,5 24 23,5 23 22,5 Boox Temperature on 9/8/2005 12:00 AM 1:15 AM 1:53 AM 2:30 AM 3:08 AM 3:46 AM 4:23 AM 5:01 AM 5:38 AM 6:16 AM 6:54 AM 7:31 AM 12:38 AM 8:09 AM 8:46 AM 9:24 AM 10:02 AM 10:39 AM 11:17 AM 11:54 AM 12:32 PM 1:09 PM 1:46 PM 2:24 PM 3:01 PM 3:39 PM 4:17 PM 4:54 PM 5:32 PM 6:09 PM 6:47 PM 7:25 PM 8:02 PM 8:40 PM 10:55 PM 11:33 PM Time Tboox oc

ΣΥΜΠΕΡΑΣΜΑΤΑ ΕΝΗΜΕΡΩΣΗ ΤΟΥ ΧΡΗΣΤΗ ΜΕΣΩ ΘΕΡΜΙΚΩΝ ΜΟΝΤΕΛΩΝ (F.D.C) ΓΙΑ ΤΗΝ ΑΠΟΔΟΣΗ ΤΩΝ ΚΛΙΜΑΤΙΣΤΙΚΩΝ ΚΑΙ ΤΗΝ ΚΑΤΑΣΤΑΣΗ ΤΩΝ ΜΟΝΩΣΕΩΝ Η ΕΞΟΙΚΟΝΟΜΗΣΗ ΕΝΕΡΓΕΙΑΣ ΣΤΗ ΨΥΞΗ/ΘΕΡΜΑΝΣΗ ΜΕ ΤΗ ΧΡΗΣΗ ΤΗΣ ΤΕΧΝΟΛΟΓΙΑΣ ΚΝΧ/ΕΙΒ ΕΙΝΑΙ ΤΟΥΛΑΧΙΣΤΟΝ 30% ΚΑΙ Η ΑΠΟΣΒΕΣΗ ΣΕ ΛΙΓΟΤΕΡΟ ΑΠΟ 3 ΧΡΟΝΙΑ Η ΕΞΟΙΚΟΝΟΜΗΣΗ ΕΝΕΡΓΕΙΑΣ ΣΤΟ ΦΩΤΙΣΜΟ ΕΙΝΑΙ ΤΟΥΛΑΧΙΣΤΟΝ 40% Ο ΧΡΗΣΤΗΣ ΜΠΟΡΕΙ ΝΑ ΕΝΗΜΕΡΩΝΕΤΑΙ ΓΙΑ ΤΗΝ ΚΑΤΑΝΑΛΩΣΗ ΕΝΕΡΓΕΙΑΣ ΚΑΙ ΝΑ ΑΠΟΦΑΣΙΖΕΙ ΓΙΑ ΤΗΝ ΔΙΑΘΕΣΗ ΤΗΣ

ΕΥΧΑΡΙΣΤΩ ΓΙΑ ΤΗΝ ΠΡΟΣΟΧΗ ΣΑΣ!!! Π. ΡΩΜΑΝΟΣ