Warning: mysql_fetch_array() expects parameter 1 to be resource, boolean given in /home/newdedyk/domains/bkmanuals.com/public_html/includes/pages/manual_inc.php on line 26
Barco RS232 manuale d’uso - BKManuals

Barco RS232 manuale d’uso

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171

Vai alla pagina of

Un buon manuale d’uso

Le regole impongono al rivenditore l'obbligo di fornire all'acquirente, insieme alle merci, il manuale d’uso Barco RS232. La mancanza del manuale d’uso o le informazioni errate fornite al consumatore sono la base di una denuncia in caso di inosservanza del dispositivo con il contratto. Secondo la legge, l’inclusione del manuale d’uso in una forma diversa da quella cartacea è permessa, che viene spesso utilizzato recentemente, includendo una forma grafica o elettronica Barco RS232 o video didattici per gli utenti. La condizione è il suo carattere leggibile e comprensibile.

Che cosa è il manuale d’uso?

La parola deriva dal latino "instructio", cioè organizzare. Così, il manuale d’uso Barco RS232 descrive le fasi del procedimento. Lo scopo del manuale d’uso è istruire, facilitare lo avviamento, l'uso di attrezzature o l’esecuzione di determinate azioni. Il manuale è una raccolta di informazioni sull'oggetto/servizio, un suggerimento.

Purtroppo, pochi utenti prendono il tempo di leggere il manuale d’uso, e un buono manuale non solo permette di conoscere una serie di funzionalità aggiuntive del dispositivo acquistato, ma anche evitare la maggioranza dei guasti.

Quindi cosa dovrebbe contenere il manuale perfetto?

Innanzitutto, il manuale d’uso Barco RS232 dovrebbe contenere:
- informazioni sui dati tecnici del dispositivo Barco RS232
- nome del fabbricante e anno di fabbricazione Barco RS232
- istruzioni per l'uso, la regolazione e la manutenzione delle attrezzature Barco RS232
- segnaletica di sicurezza e certificati che confermano la conformità con le norme pertinenti

Perché non leggiamo i manuali d’uso?

Generalmente questo è dovuto alla mancanza di tempo e certezza per quanto riguarda la funzionalità specifica delle attrezzature acquistate. Purtroppo, la connessione e l’avvio Barco RS232 non sono sufficienti. Questo manuale contiene una serie di linee guida per funzionalità specifiche, la sicurezza, metodi di manutenzione (anche i mezzi che dovrebbero essere usati), eventuali difetti Barco RS232 e modi per risolvere i problemi più comuni durante l'uso. Infine, il manuale contiene le coordinate del servizio Barco in assenza dell'efficacia delle soluzioni proposte. Attualmente, i manuali d’uso sotto forma di animazioni interessanti e video didattici che sono migliori che la brochure suscitano un interesse considerevole. Questo tipo di manuale permette all'utente di visualizzare tutto il video didattico senza saltare le specifiche e complicate descrizioni tecniche Barco RS232, come nel caso della versione cartacea.

Perché leggere il manuale d’uso?

Prima di tutto, contiene la risposta sulla struttura, le possibilità del dispositivo Barco RS232, l'uso di vari accessori ed una serie di informazioni per sfruttare totalmente tutte le caratteristiche e servizi.

Dopo l'acquisto di successo di attrezzature/dispositivo, prendere un momento per familiarizzare con tutte le parti del manuale d'uso Barco RS232. Attualmente, sono preparati con cura e tradotti per essere comprensibili non solo per gli utenti, ma per svolgere la loro funzione di base di informazioni e di aiuto.

Sommario del manuale d’uso

  • Pagina 1

    RLM se r ie s User Guide RS232 commands R5976884/02 04/04/2006[...]

  • Pagina 2

    Barco nv Eve nts Noordl aan 5, B-8520 Kuurne Phone: +32 56.36.89.70 Fax: +32 56.36.88.24 E-mail: sales.events@barco.com Visit us at the web: www.barco.com P r i n t e di nB e l g i u m[...]

  • Pagina 3

    Table of con tents T ABLE OF CONTENTS 1 . S e r i a l c o m m u n i c a t i o n s B a s i c s ................................................................................... 5 1 . 1 C o m m u n i c a t i o n P r o t o c o l ............ ................... ................... .................. ............... ................... ....... 5 1 . [...]

  • Pagina 4

    Table of con tents 2 . 1 6 S h u t t e r , R e a d ............. ................... ............... .................. ................... ................... ........ ......... 5 2 2 . 1 7 F r e e z e , W r i t e ................. .................. ................... ............... ................... ................... ....... ...... 5 3 2 .[...]

  • Pagina 5

    Table of con tents 3.2.21 PiP free window size, Read . . ....................... .................. ............... ................... ................... . 1 0 5 3.2.22 PiP Window free size, Read Min/Max . . . ........ ................... .................. ............... ................... ..... 1 0 6 3 . 2 . 2 3 W i n d o w h o r i z o n t a [...]

  • Pagina 6

    Table of con tents 3 . 3 1 . 1 2 V C O , w r i t e ......................... ................... ............... .................. ................... ............... ..... 1 5 0 3 . 3 1 . 1 3 V C O , R e a d ............................ .................. ................... ............... ................... ............. ... 1 5 0 3 . 3 1 . 1 [...]

  • Pagina 7

    1. Serial comm unications Ba sics 1. SERIAL COMMUNICA TIONS BASICS Overview • Communication Protocol • Data words • Communication settings • Hardware • Syntax • Serial comms commands 1.1 Communication Protocol Communication protocol s ummary Like every communication method the serial communication uses a particular proto col (ANSI) whic[...]

  • Pagina 8

    1. Serial communi cations Basics Some comma nds do not require a data field(s) Checksum byte The “Checksum byte” is used to detect erro rs during transmission o r reception Checksum byte = (projectoraddress + command bytes + Data bytes) Modulo x100 Stop byte The “Stop byte” informs the projector (in case of transmission) or the computer (i[...]

  • Pagina 9

    1. Serial comm unications Ba sics returned data = Data[0]....Da ta[3] value = Data[0]*256 3 + Data[1]*256 2 + Data[2]*256 + Data[3]. 1.3 Communication settings Baud rate Defines the speed of the data transfer . The baud rate can be set using the menu structure. Consult t he Owner’s man ual of the p rojector o n how to change t he baud rat e setti[...]

  • Pagina 10

    1. Serial communi cations Basics 1 CD 2 RxD 3 TxD 4 DTR 5 GND 6 DSR 7 RTS 8 CTS 9 RI 1 CD 2 RxD 3 TxD 4 DTR 5 GND 6 DSR 7 RTS 8 CTS 9 RI D9 female D9 male Image 1-1 connection: IBM PC or compatible → projector 1 HSKo 2 HSKi 3 TxD- 4 GND 5 RXD- 6 TXD+ 7 n.c. 8 RXD+ 4 DTR 8 CTS 3 TxD 5 GND 2 RxD DIN mini 8 D9 male Image 1-2 connection: MAC → proj[...]

  • Pagina 11

    1. Serial comm unications Ba sics 1.5 Syntax Characters In this manual, all characters are exp ressed using the C- language syntax: decimal values ddd 2 hexadecimal values x hh 3 The characters that can be used are For text fields: "ABCDEFGHIJKLMNOPQ RSTUVWXYZ0123456789+-/&@#_:;abcdefghijklmnop qrstuvwxyz” For filenames: "? *ABCDEF[...]

  • Pagina 12

    1. Serial communi cations Basics ’o’ x6f ’r ’ x72 ’l’ x6c ’d’ x64 NULL x00 standard file Predefined file stored in read-only memory custom f ile File created by the user and stored in non-volatile read write memory Filename A filename is specified as a C-language string. This string has to follow some rules: x x x x x x x x . y[...]

  • Pagina 13

    1. Serial comm unications Ba sics This manual is divided in two parts, the first part contains the basic (elementary) com mands while the second part gives an overview of th e available advanced commands. Some commands are illustrate d with an example. R5976884 RL M SERIES 04/04/2006 11[...]

  • Pagina 14

    1. Serial communi cations Basics 12 R5976884 RLM SERIES 04/04/2006[...]

  • Pagina 15

    2. Basic Commands 2. BASIC COMMANDS Overview • End of process (EOP) • Identification Commands • RCU commands • Projector ON/OFF , Write • Projector ’s Status, Read • Lens commands • Picture setting • Menu Exit • Source selection • Scanned inputs, read • Scan inputs • Fil e, Load • Orientation, Write • Orientation, Read[...]

  • Pagina 16

    2. Basic Commands Command Command [0] x00 Command [1] x01 Sent Data Data[0] = activatio n byte : x00 = OFF ; x 01 = ON Returned data When you send a particular command (for example projector ON), the EO P will be returned when the command has been executed Command [0] x00 Command [1] x01 The EOP will be sent after the ACK. In case of a read c[...]

  • Pagina 17

    2. Basic Commands 2.2.3 Projector’ s Software version, Read Descripti on Reads the Projector ’s Software version, the returned string is a Pascal-language string. Command Command [0] x60 Returned Data Data[0] = byLength = 1 byte describing the length of the software version string. Data[1] = strSoftwar eV ersion 2.2.4 Projector’ s Serial num[...]

  • Pagina 18

    2. Basic Commands Tr a n s m i t Start xfe Projector address x01 Command[0] x6 d Data[0] x01 Checksum x6f Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 2.2.7 Projector langua ge, Read Descripti on Reads the active language for the projector Command Command [0] x71 Ret[...]

  • Pagina 19

    2. Basic Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (answer) Start xfe Projector address x01 Command[0] x 71 Data[0] x01 Checksum x73 Stop xff 2.2.8 Projector language, Wri te Descripti on Sets a new language for the projector Command Command [0] x70 Data D[...]

  • Pagina 20

    2. Basic Commands Tr a n s m i t Checksum x72 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 2.2.9 Baudrate, Wr ite Descripti on Sets the baudrate Command Command [0] x75 Data string = C-language string possible string values 9600 19200 38400 57600 1 15200 2.3 RCU commands[...]

  • Pagina 21

    2. Basic Commands 2.4 Projector ON/OFF , Write Descripti on Switching ON/OFF the projector Command Switching the projector ON Command [0] x65 Switching the projector OFF Command [0] x66 Example Switches the projector ON Tr a n s m i t Start xfe Projector address x01 Command[0] x65 Checksum x66 Stop xff Receive (acknowledge) Start xfe Projec[...]

  • Pagina 22

    2. Basic Commands bit5 gives an indic ation on whether the projector can b e (re)started or not (hot restrike), if the cool d own cycle is active (bit5 = 0) the projector can n ot be restarted until the cool down cycle has been com pleted. Example Read the status being : x23: •p r o j e c t o r i s O N • textbox is on • cool down cycle is in[...]

  • Pagina 23

    2. Basic Commands Data Data[0] = byDirection = 1 byte, gives the shift di rection: 0 = down ; 1 = up; 2 = left; 3 = right 2.6.2 Lens Zoom Descripti on T o Zoom the image in or out depending on the data sent. Command Command [0] xf4 Command [1] x82 Data Data[0] = byDirection = 1 b yte, gives the Zoom direction ( in/out): 0 = out ; 1 = in 2.6.3 Len[...]

  • Pagina 24

    2. Basic Commands Tr a n s m i t Checksum x24 Stop xff 2.7.2 Contrast, decrement Descripti on Decrements the contrast by on e. Command Command [0] x23 Command [1] x01 2.7.3 Contrast, write Descripti on Writes a new contrast value to the projector Command Command [0] x20 Command [1] x01 Data Data [0] = contrast valu e Data[0] = unsigned byte E[...]

  • Pagina 25

    2. Basic Commands Receive (acknowledge) Checksum x07 Stop xff 2.7.4 Contrast, Read Descripti on Reads the actual contrast value of the projector Command Command [0] x21 Command [1] x01 Returned Data Data [0] = contrast valu e Example Reads the actual contrast value of the project or , the awnser being x20 Tr a n s m i t Start xfe Projector ad[...]

  • Pagina 26

    2. Basic Commands 2.7.5 Minimum Contrast, Read Descripti on Reads the minimum (range) contrast value of the projector Command Command [0] x26 Command [1] x01 Returned Data Data [0] = minimum contrast value Example Reads the minimum contrast va lue of the projector , the awnser being x00 Tr a n s m i t Start xfe Projector address x01 Command[0][...]

  • Pagina 27

    2. Basic Commands Command Command [0] x27 Command [1] x01 Returned Data Data [0] = Maxi mum contrast valu e Example Reads the Maximum contrast value of the projector , the awnser being x64 Tr a n s m i t Start xfe Projector address x01 Command[0] x27 Command[1] x01 Checksum x29 Stop xff Receive (acknowledge) Start xfe Projector address x[...]

  • Pagina 28

    2. Basic Commands 2.7.8 Brightness decrement Descripti on Decrements the Brightness by one. Command Command [0] x23 Command [1] x02 2.7.9 Brightness, Wr ite Descripti on Writes a new Brightness value to the proj ector Command Command [0] x20 Command [1] x02 Data Data [0] = contrast valu e value = uns igned byt e Example Writes a new Brightness [...]

  • Pagina 29

    2. Basic Commands 2.7.10 Brightness, Read Descripti on Reads the actual Brightness value of the projector Command Command [0] x21 Command [1] x02 Returned Data Data [0] = Brightness value Example Reads the actual Brightness value of the projector , the awnser being x20 Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] [...]

  • Pagina 30

    2. Basic Commands Command Command [0] x26 Command [1] x02 Returned Data Data [0] = minimum Brightness value Example Reads the minimum Brightness value of the projector , the awnser being x00 Tr a n s m i t Start xfe Projector address x01 Command[0] x26 Command[1] x02 Checksum x29 Stop xff Receive (acknowledge) Start xfe Projector address [...]

  • Pagina 31

    2. Basic Commands Returned Data Data [0] = Maximum Brightness value Example Reads the Maximum Brightness value of the projector , the awnser being x64 Tr a n s m i t Start xfe Projector address x01 Command[0] x27 Command[1] x02 Checksum x30 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Check[...]

  • Pagina 32

    2. Basic Commands Command Command [0] x23 Command [1] x03 2.7.15 Wri te Saturation Descripti on Writes a new Saturation value to the projector Command Command [0] x20 Command [1] x03 Data Data [0] = Saturation value value = uns igned byt e Example Writes a new Brightness value of x20 to the proje ctor Tr a n s m i t Start xfe Projector addres[...]

  • Pagina 33

    2. Basic Commands Command Command [0] x21 Command [1] x03 Returned Data Data [0] =Saturatio n value Example Reads the actual Saturation value of the projector, the awnser being x20 Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] x03 Checksum x25 Stop xff Receive (acknowledge) Start xfe Projector address x01 Comma[...]

  • Pagina 34

    2. Basic Commands Returned Data Data [0] = minimum Saturation value Example Reads the minimum Saturation value of the projector , the awnser being x00 Tr a n s m i t Start xfe Projector address x01 Command[0] x26 Command[1] x03 Checksum x30 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Check[...]

  • Pagina 35

    2. Basic Commands Tr a n s m i t Start xfe Projector address x01 Command[0] x27 Command[1] x03 Checksum x31 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Projector address x01 Command[0] x27 Command[1] x03 Data [0] x7f Checksum xaa Stop[...]

  • Pagina 36

    2. Basic Commands 2.7.21 Tint, W rite Descripti on Writes a new T int value to t he projector Command Command [0] x20 Command [1] x04 Data Data [0] = msb Data [1] = lsb type = signed word Example Writes a new T int value of x20 to the projector Tr a n s m i t Start xfe Projector address x01 Command[0] x20 Command[1] x04 Data[0] x00 Data[1] [...]

  • Pagina 37

    2. Basic Commands Returned Data signed word : Data [0] = msb Data [1] = lsb Example Reads the actual Tint value of the proj ector , the awnser being : x00 x20 Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] x04 Checksum x26 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] [...]

  • Pagina 38

    2. Basic Commands Data [0] = msb Data [1] = lsb Example Reads the minimum Tint value of the projector , the awnser being xffx4c Tr a n s m i t Start xfe Projector address x01 Command[0] x26 Command[1] x04 Checksum x31 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Rec[...]

  • Pagina 39

    2. Basic Commands Example Reads the Maximum Tint value of the proj ector , the awnser being x00xb4 Tr a n s m i t Start xfe Projector address x01 Command[0] x27 Command[1] x04 Checksum x32 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Proj[...]

  • Pagina 40

    2. Basic Commands Command Command [0] x23 Command [1] x70 2.7.27 Gamma, W rite Descripti on Writes a new Gamma value to the projector Command Command [0] x20 Command [1] x70 Data Data [0] = Ga mma value Data[0] = unsigned byte Example Writes a new Gamma value of x11 to t he projector Tr a n s m i t Start xfe Projector address x01 Command[0] [...]

  • Pagina 41

    2. Basic Commands Command Command [0] x21 Command [1] x70 Returned Data Data [0] = Ga mma value Example Reads the actual Gamma value o f the projector , the awnser being x11 Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] x70 Checksum x92 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] [...]

  • Pagina 42

    2. Basic Commands Returned Data Data [0] = minimum Gamma value Example Reads the minimum Gamm a value of the projector , the awnser being x10 Tr a n s m i t Start xfe Projector address x01 Command[0] x26 Command[1] x70 Checksum x97 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 [...]

  • Pagina 43

    2. Basic Commands Tr a n s m i t Start xfe Projector address x01 Command[0] x27 Command[1] x70 Checksum x98 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Projector address x01 Command[0] x27 Command[1] x70 Data [0] x1c Checksum xb4 Stop[...]

  • Pagina 44

    2. Basic Commands 2.7.33 Phase, Wr ite Descripti on Writes a new Phase value to the projector Command Command [0] x20 Command [1] x06 Data Data [0] = Phase value value = uns igned byt e Example Writes a new Phase value of x1a to the projector Tr a n s m i t Start xfe Projector address x01 Command[0] x20 Command[1] x06 Data x1a Checksum x41[...]

  • Pagina 45

    2. Basic Commands Example Reads the actual Phase value of the projector , the awnser being x1a Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] x06 Checksum x28 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Projector[...]

  • Pagina 46

    2. Basic Commands Tr a n s m i t Start xfe Projector address x01 Command[0] x26 Command[1] x06 Checksum x33 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Projector address x01 Command[0] x26 Command[1] x06 Data [0] x00 Checksum x33 Stop[...]

  • Pagina 47

    2. Basic Commands Tr a n s m i t Command[1] x06 Checksum x34 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Projector address x01 Command[0] x27 Command[1] x06 Data [0] x1f Checksum x4d Stop xff 2.8 Menu Exit Descripti on Exits all the men[...]

  • Pagina 48

    2. Basic Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 2.9 Source selection Descripti on Selects an input source. Command Command [0] x38 Data Data[0] = bySource, byte describing the source to be linked to the window. Byte value source 1 BNC’s 2 D15 3 Composite video 4 SV[...]

  • Pagina 49

    2. Basic Commands for composite video: the data byte describes the locatio n of the composite video source signal to be selected. Byte value Mode 0 Video BNC 1 V ertical sync BNC 2 Red BNC 3 Green BNC 4 Blue BNC 5 SVideo Y 6 SVideo C 7 Video 2 5 for Svideo: the d ata byte describes the location of the S-Video signal to be selected. Byte value Mode [...]

  • Pagina 50

    2. Basic Commands Data word scanned input possible sources, W value = wV alue7 S-VIDEO (lum) 0 = none ; 1 = S-VID(lum) ; 2 = Video Y wV alue8 S-VIDEO (chr) 0 = none ; 1 = S-VID(chr) ; 2 = VideoC wV alue9 DVI 0 = none ; 1 = DVI wV alue10 PC 0 = none ; 1 = RGB HV ; 2 = RG s B For more info about the input configurations, see the projector’s Owner ?[...]

  • Pagina 51

    2. Basic Commands Tr a n s m i t Data [4] x2e (=’.’) Data [5] x63 (=’c’) Data [6] x30 (=’0’) Data [7] x35 (=’5’) Data [8] x00 Checksum xF6 Stop xff Receive (Acknowledge) Start xfe Projector Address x01 Command [0] x00 Command [1] x06 Checksum x07 Stop xff 2.13 Orientation, W rite Descripti on Writes the orientation to t[...]

  • Pagina 52

    2. Basic Commands Tr a n s m i t Checksum x85 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 2.14 Orientation, Read Descripti on Reads the orientation of th e projector Command Command [0] x21 Command [1] x24 Returned Data Data [0] = unsigned byte byte val ue: x00 =r e a[...]

  • Pagina 53

    2. Basic Commands Receive (acknowledge) Checksum x07 Stop xff Receive (Awnser) Start xfe Projector address x01 Command[0] x21 Command[1] x24 Data[0] x40 Checksum x86 Stop xff 2.15 Shutter , Write Descripti on Activates the shutter Command Command [0] x20 Command [1] x42 Data Data [0] = unsigned byte byte val ue: x00 =C L O S E; x01 =O [...]

  • Pagina 54

    2. Basic Commands Receive (acknowledge) Command[0] x00 Command[1] x06 Checksum x07 Stop xff 2.16 Shutter , Read Descripti on Reads the shu tter’s position Command Command [0] x21 Command [1] x42 Returned Data Data [0] = unsigned byte byte val ue: x00 =C L O S E; x01 =O P E N Example Read the shutter being x01 = open Tr a n s m i t Start [...]

  • Pagina 55

    2. Basic Commands Receive (awnser) Command[0] x21 Command[1] x42 Data[0] x01 Checksum x65 Stop xff 2.17 Freeze, W rite Descripti on Freezes the projected image Command Command [0] x20 Command [1] x23 Data Data [0] = unsigned byte byte val ue: x00 =O F F ; x01 =O N Example activate the Freeze function Tr a n s m i t Start xfe Projector add[...]

  • Pagina 56

    2. Basic Commands 2.18 Freeze, Read Descripti on Reads whether the projected image is frozen or not. Command Command [0] x21 Command [1] x23 Returned Data Data [0] = unsigned byte byte val ue: x00 =O F F; x01 =O N Example Reads the Freeze function, being x00 =O F F Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] x2[...]

  • Pagina 57

    2. Basic Commands 2.19 Logo ON/OFF Descripti on Enables or disables the logo. Command Command [0] xf1 Command [1] x81 Data Data [0] = unsigned byte byte val ue: 0 = logo OFF ; 1 =l o g oO N Example Enables the logo Tr a n s m i t Start xfe Projector address x01 Command[0] xf1 Command[1] x81 Data[0] x01 Checksum x74 Stop xff Receive (acknow[...]

  • Pagina 58

    2. Basic Commands Data Data [0] = unsigned byte byte val ue: x00 =L o g o; x01 =B l u e; x02 = Black Example Sets the background to “Logo” Tr a n s m i t Start xfe Projector address x01 Command[0] x20 Command[1] x7b Checksum x9c Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x[...]

  • Pagina 59

    2. Basic Commands Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] x7b Checksum x9d Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (awnser) Start xfe Projector address x01 Command[0] x21 Command[1] x7b Data[0] x00 Checksum x9d Stop [...]

  • Pagina 60

    2. Basic Commands Tr a n s m i t Start xfe Projector address x01 Command[0] x20 Command[1] x0b Data[0] x01 Checksum x2d Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 2.23 Aspect Ratio, Read Descripti on Reads the actual Aspect Ratio Command Command [0] x21 Command [1[...]

  • Pagina 61

    2. Basic Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Awnser) Start xfe Projector address x01 Command[0] x21 Command[1] x0b Data [0] x01 Checksum x2e Stop xff 2.24 Show Native resolution (ON/OFF ), W rite Descripti on Enable/disables the native resolution fu[...]

  • Pagina 62

    2. Basic Commands 2.26 Full screen re presentation(ON/OFF), Write Descripti on Enable/disables the full screen represe ntation Command Command [0] x20 Command [1] xae Sent Data Data[0] : one byte : 0 = OFF ; 1 = ON 2.27 Full screen representation (ON/OFF), Read Descripti on Reads whether the Full screen repr esentation is enabled or not Command C[...]

  • Pagina 63

    2. Basic Commands Tr a n s m i t Data[1] x00 Checksum x71 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 2.29 Keystone, Read Descripti on Reads the actual Keystone value Command Command [0] x21 Command [1] x50 Returned Data signed word Data[0] = MSB Data[1] = LSB Example[...]

  • Pagina 64

    2. Basic Commands Receive (acknowledge) Checksum x07 Stop xff Receive (awnser) Start xfe Projector address x01 Command[0] x21 Command[1] x50 Data[0] x00 Data[1] x00 Checksum x72 Stop xff 2.30 Lamp commands Overview • Lamp Mode, Write • Lamp Mode, Read • Lamp Status, Read • Lamp W arning, Read • Lamp runtime, Read • Lamps Seria[...]

  • Pagina 65

    2. Basic Commands Tr a n s m i t Command[0] x20 Command[1] x0c Data[0] x00 Checksum x2d Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 2.30.2 Lamp Mode, Read Descripti on Reads the actual Lamp mode of the projector Command Command [0] x21 Command [1] x0c Returned Data [...]

  • Pagina 66

    2. Basic Commands Receive (acknowledge) Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Projector address x01 Command[0] x21 Command[1] x0c Data [0] x00 Checksum x2e Stop xff 2.30.3 Lamp Status, Read Descripti on Reads the actual Lamp Status of the projector Command Command [0] x21 Command [1] x0d Returne[...]

  • Pagina 67

    2. Basic Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Projector address x01 Command[0] x21 Command[1] x0d Data [0] x00 Data [1] x01 Checksum x30 Stop xff 2.30.4 Lamp W arning, Read Descripti on Reads the actual Lamp W arning setting of the[...]

  • Pagina 68

    2. Basic Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Projector address x01 Command[0] x21 Command[1] x0d Data [0] x00 Data [1] x1e Checksum x4d Stop xff 2.30.5 Lamp runtime, Read Descripti on Reads the lamp runtime, the lamp (lamp1 or lam[...]

  • Pagina 69

    2. Basic Commands Command Command [0] x63 Data Data[0] = unsigned byte data value: 1= lamp1 ; 2=lam p2 Returned Data string = Pascal-language string. 2.31 Image files 2.31.1 File, write Descripti on This command writes an image f i l et ot h ep r o j e c t o r ,t h i sc a nb eu s e dt ow r i t et ot h ep r o j e c t o rap r e v i o u s l yb a c k [...]

  • Pagina 70

    2. Basic Commands The FileData sho uld be the same as the data read us ing the “file, read” command . 2.31.2 File, read Descripti on This command reads an image file from the projector (for backu p purposes, ...). The string used to represent the filename is of the C-string type. Command Command [0] xbf Send Data strFilename = string of the C-[...]

  • Pagina 71

    2. Basic Commands 2.32 Color temperature Overview • Color temperature (Red/Blue), Increment • Color temperature (Red/Blue), Decrement • Color temperature Red/Bleu, Write • Color temperature Red/Bleu, Read • Color temperature, Read 2.32.1 Color te mperature (Red/Blue), Incr ement Descripti on Increments the Red/Blue C olor temperature by o[...]

  • Pagina 72

    2. Basic Commands Example Decrement the Red color temperat ure of a projector with address x01 by one. Tr a n s m i t Start xfe Projector address x01 Command[0] x23 Command[1] x43 Checksum x67 Stop xff 2.32.3 Color tempe rature Red/Bleu, Write Descripti on Writes a custom value for the different color temperatures to the projector Commands R[...]

  • Pagina 73

    2. Basic Commands Color temperature Data[0] Projector white x00 Broadcast x20 Film x36 Video x41 Computer x5d If Data[0] is ommited current used co lortemp is returned Returned Data Unsigned 2 byte word (msb-lsb).see chapter "1. S er ial communications Basics", "Data words", page 6 Data [0] = unsigned byte (msb) Data [1] = [...]

  • Pagina 74

    2. Basic Commands Receive (acknowledge) Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Projector address x01 Command[0] x21 Command[1] x45 Data [0] x00 Checksum x67 Stop xff 2.33 Standby T imer , Write Descripti on Adjusts the Standby Timer in a range from 180 to 3600. Command Command [0] x20 Command [1] x98 Data Unsign[...]

  • Pagina 75

    2. Basic Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 2.34 Standby T imer , Read Descripti on Reads the actual Standby Timer value Command Command [0] x21 Command [1] x98 Returned Data Unsigned word representing the standby time value: Data[0] = msb Data[1] = lsb range: 1[...]

  • Pagina 76

    2. Basic Commands Receive (awnser) Start xfe Projector address x01 Command[0] x21 Command[1] x98 Data[0] x00 Data[1] x00 Checksum xba Stop xff 2.35 Switching mode, W rite Descripti on Writes the switching mode to the pr ojector Command Command [0] x20 Command [1] x9a Data Data [0] = unsigned byte Byte value Switching mode x01 Seamless x[...]

  • Pagina 77

    2. Basic Commands Tr a n s m i t Command[0] x20 Command[1] x9a Data[0] x01 Checksum xbc Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 2.36 Switching mode, Read Descripti on Reads the Switching Mode of the projector Command Command [0] x21 Command [1] x9a Returned Data[...]

  • Pagina 78

    2. Basic Commands Example Read the switching mode being x01 = seamless. Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] x9a Checksum xbc Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Awnser) Start xfe Projector address x01 Command[0[...]

  • Pagina 79

    2. Basic Commands 2.38 Filmmod e detection, Write Descripti on Enables/disables the filmmode detection. Command Command [0] x20 Command [1] xa1 Data Data [0] = byte type byte val ue: 0 = OFF; 1 = ON Example Enables the Filmmode detection Tr a n s m i t Start xfe Projector address x01 Command[0] x20 Command[1] xa1 Data[0] x01 Checksum xc3 St[...]

  • Pagina 80

    2. Basic Commands Returned Data Data [0] = unsigned byte byte val ue: x00 =O F F; x01 =O N Example Reads the Automatic startup, be ing x00 =O F F Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] xa1 Checksum xc3 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum[...]

  • Pagina 81

    2. Basic Commands Command Command [0] xf5 Data (optio nal) Data[0] = byWindow Data[1], Data[2] = wV alue = word describing the settings of the AutoImage function The 4 bits of the first byte (lsb) are used. bit7 bit6 bit5 bit4 bit 3 bit2 bit1 bit0 - - - - Start pixel-l ine Phase Contr/Bright To t a l P i x e l s T able 2-264 byte description Examp[...]

  • Pagina 82

    2. Basic Commands 2.41.1 Blanking Reset Descripti on Allows the reset of the blanking values. Command Command [0] x17 Data byT ypeBlanking : 1 byte describing the type of blanking. Data [0] = 0 : blanking done and saved in the image f ile Data [0] = 1: blanking done on the display The maximum number of pixels which can be blanked depen ds on the n[...]

  • Pagina 83

    2. Basic Commands Data[1] = 0 : disable Data[1] = 1 : enable 2.41.4 Blanking, W rite Descripti on Blanks the display . Four blanking methods are possible: •T o p • Bottom • Left • Right The blanking may also be chosen to be performed on the display or on the image file (saved in the image file). Command T op blanking: Command [0] x20 Comma[...]

  • Pagina 84

    2. Basic Commands Image 2-1 2.41.5 Blanking, Read Descripti on Reads the values of the blanking. Command Reads top blanking: Command [0] x21 Command [1] x4c Reads bottom blanking: Command [0] x21 Command [1] x4d Reads left blanking: Command [0] x21 Command [1] x4e Reads right blanking: Command [0] x21 Command [1] x4f Sent Data byT ypeBlanki[...]

  • Pagina 85

    2. Basic Commands Returned Data byT ypeBlanking : one byte describing the type of blanking Data [0] = 0 : blanking on image file (saved in image file) Data [0] = 1 : blanking on display Wvalue : Unsigned word (2 bytes) representing the number of pixels blanked. Data [1] = msb Data [2] = lsb The maximum number of pixels blanked depends on the native[...]

  • Pagina 86

    2. Basic Commands Increments Right blanking: Command [0] x22 Command [1] x4f Data byT ypeBlanking : one byte describing the type of blanking Data [0] = 0 : blanking on image file (saved in image file) Data [0] = 1 : blanking on display WStep = unsigned word representing the amount of increments The maximum number of pixels which can be blanked de[...]

  • Pagina 87

    2. Basic Commands Command [0] x26 Command [1] x4c Reads minimal bottom blanking: Command [0] x26 Command [1] x4d Reads minimal left blanking: Command [0] x26 Command [1] x4e Reads minimal right blanking: Command [0] x26 Command [1] x4f Sent Data byT ypeBlanking : one byte describing the type of blanking Data [0] = 0 : blanking on image file[...]

  • Pagina 88

    2. Basic Commands Command [0] x27 Command [1] x4f Sent Data byT ypeBlanking : one byte describing the type of blanking Data [0] = 0 : blanking on image file (saved in image file) Data [0] = 1 : blanking on display Returned Data byT ypeBlanking : one byte describing the type of blanki ng Data [0] = 0 : blanking on image file (saved in image file) [...]

  • Pagina 89

    3. Advanced Commands 3. ADV ANCED COMMANDS Overview • Lamp Commands • Picture In Picture • Viewport Active, Write • Viewport Active, Read • Viewport Active, Increment/decrement • Viewport Active Min/Max, Read • Viewport Area, Write • Viewport Area, Read • Viewport Area Min/Max, Read • Desktop area, Write • Desktop area, Read ?[...]

  • Pagina 90

    3. Advanced Commands Data Data[0]: unsigned byte data byte value: 1 = lamp1 ; 2= lamp2 Pascal type string of length 7 representing the serial number . 3.1.2 Lamp History , Read Descripti on Reads the actual Lamp History of the projector Command Command [0] x21 Command [1] x0f Returned Data Array containing maximum 20 elements, each element contai[...]

  • Pagina 91

    3. Advanced Commands 3.2 Picture In Picture Overview • PiP Loop Focus • PiP Focus, Read • PiP Foc us, Write • PiP layout , Read • PiP layout, Write • PiP layout List, Read • PiP current layout, Read • PiP se lect layout, Write • PiP save layout • PiP save layout as • PiP rename layout • PiP remove Layout • PiP remove windo[...]

  • Pagina 92

    3. Advanced Commands Tr a n s m i t Checksum x14 Stop xff 3.2.2 PiP Focus, Read Descripti on Returns the PiP window which has the focus. Command Command [0] x12 Command [1] x02 Returned Data Data [0] = Window type byte Window ty pe byte valu e: 0=D a t aA;1=V i d e oA;2=D a t aB;3=V i d e oB Example Read the PiP window which has the focus, resu[...]

  • Pagina 93

    3. Advanced Commands Receive (Awnser) Checksum x16 Stop xff 3.2.3 PiP Focus, Write Descripti on Gives the focus to a particu lar PiP window . Command Command [0] x12 Command [1] x03 Data Data [0] = Window type byte Window ty pe byte valu e: 0=D a t aA;1=V i d e oA;2=D a t aB;3=V i d e oB Example Gives the focus to a particular PiP window , here[...]

  • Pagina 94

    3. Advanced Commands Sent Data strPipName = string representing the name of the layout The strPipname string is of the C-languag e type. see chapter " 1. Serial comm unications Basics", "Syntax", page 9 Returned Data PiPData = binary data describing the PiP layout. The data used to w rite a layout using the “write layout”co [...]

  • Pagina 95

    3. Advanced Commands Returned Data strPipname1 ... strPipnameN The strPipname and strMask strings are of the C-langua ge type. see chapter "1. Serial communications Ba- sics", "Syntax", page 9 Example Reads the actual PiP layout list using the w ildcard (*), i.e. returns all the layouts. Result = Full screen, 2 by2 layout. Tr a [...]

  • Pagina 96

    3. Advanced Commands Receive (Awnser) Data [6] x63 Data [7] x72 Data [8] x65 Data [9] x65 Data [10] x6e Data [1 1] x00 Data [0] x32 Data [1] x62 Data [2] x76 Data [3] x32 Data [4] x20 Data [5] x72 Data [6] x61 Data [7] x73 Data [8] x74 Data [9] x65 Data [10] x72 Data [1 1] x00 Checksum x44 Stop xff 3.2.7 PiP current layout, Read[...]

  • Pagina 97

    3. Advanced Commands Tr a n s m i t Command[0] x12 Command[1] x05 Checksum x18 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Awnser) Start xfe Projector address x01 Command[0] x12 Command[1] x05 Data [0] x46 Data [1] x75 Data [2] x6c Data [3] x6c Data [4[...]

  • Pagina 98

    3. Advanced Commands Command Command [0] x12 Command [1] x06 Data strPipname = string The strin g is of the C- langua ge type se e chapter "1. Serial communications Basics", "Syntax", page 9 Example Sets the PiP layout = Full screen. Tr a n s m i t Start xfe Projector address x01 Command[0] x12 Command[1] x06 Data[0] x46 [...]

  • Pagina 99

    3. Advanced Commands 3.2.9 PiP save layout Descripti on Saves the active PiP layout. Command Command [0] x12 Command [1] x07 3.2.10 PiP save lay out as Descripti on Saves a PiP layout . Command Command [0] x12 Command [1] x08 Data strPipname = string of maximum 12 characters (including the x00 byte) The string is of the C-language type see cha[...]

  • Pagina 100

    3. Advanced Commands Receive (acknowledge) Checksum x07 Stop xff 3.2.1 1 PiP rename layout Descripti on Renames a PiP layout . Command Command [0] x12 Command [1] x09 Data strOldPipname = string (old name of the layout) strNewPipname = string of max 12 characters (new layout n ame) The string is of the C– language type see chap ter "1. S[...]

  • Pagina 101

    3. Advanced Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 3.2.12 PiP remove Layout Descripti on Removes a Pi P layout. Command Command [0] x12 Command [1] x0a Data strPipname1 ... strPipnameN The strPipnameN string is of the C-langua ge type. s ee chapter "1. Serial c[...]

  • Pagina 102

    3. Advanced Commands Receive (acknowledge) Command[0] x00 Command[1] x06 Checksum x07 Stop xff 3.2.13 PiP remove window Descripti on Removes a particular PiP window . Command Command [0] x12 Command [1] x0b Data Data [0] = Window type byte Window ty pe byte valu e: 0=D a t aA;1=V i d e oA;2=D a t aB;3=V i d e oB Example Removes a particular P[...]

  • Pagina 103

    3. Advanced Commands Command Command [0] x12 Command [1] x0d Returned Data strSourceName1 ... strFilenameN 3.2.15 PiP add window Descripti on Adds a PiP window . T o add a window following h ave to be specified: • source to be visualized in the window • Mode of the source input • position and size of the window • order (priority) of the w[...]

  • Pagina 104

    3. Advanced Commands for composite video: Byte value Mode 0 Video BNC 1 V ertical sync BNC 2 Red BNC 3 Green BNC 4 Blue BNC 5 SVideo Y 6 SVideo C for Svideo: Byte value Mode 100 SVideo 1 101 SVideo on R & B 102 SVideo on Vs and Vi deo BNC Data[2], D ata[3] = Xsize word Data[4], D ata[5] = Ysize word Data[6], Data [7] = Xposition word Data[8], D[...]

  • Pagina 105

    3. Advanced Commands Image 3-1 PiP layout (3 win dows, 2 video/1data), data windo w is resized Command Command [0] x20 Command [1] x91 Data Data[0]...Data[3] = double w ord Xsize : describes the “width” of the window (x axis). Data[4]...Data[7] = double w ord Ysize : describes the “height” of the wind ow (y axis). Xsize, Ysize are given i[...]

  • Pagina 106

    3. Advanced Commands Xsize and Ysize determ ine the size of the window, since the as pect ratio is fixed, one of the v alues may be sufficient to determin e the size of the windo w . If the 2 values do not match the aspect ratio, then Xsize is taken as reference and Ysize is calculated to match the aspect ratio. 3.2.18 PiP window size, incr ement/d[...]

  • Pagina 107

    3. Advanced Commands 3.2.20 PiP free window size, Wr ite Descripti on Allows the free resizing of the active window (works in PiP and i n Full Screen mode) i.e the aspect ratio may be changed. Image 3-2 PiP layout (3 win dows, 2 video/1data), data windo w is resized Command Command [0] x20 Command [1] x92 Data Data[0] = byFlag bit0 = pos ition : [...]

  • Pagina 108

    3. Advanced Commands Command Command [0] x21 Command [1] x92 Returned Data Data[0]...Data[3] = signed double word XPosition : describes the start position of the window (x a xis). Data[4]...Data[7] = signed double word YPosition : describes the start position of the window (y axis). Data[8]...Data[1 1 ] = signed double word Xsize : describes the [...]

  • Pagina 109

    3. Advanced Commands Image 3-3 PiP : data window is reposi tionned Command Command [0] x20 Command [1] x94 Data Data [0]...Data[3] = signed double word 3.2.24 Window hori zontal position , Read Descripti on This command returns the horizontal position of the active window . Command Command [0] x21 Command [1] x94 Returned Data Data [0]...Data[3[...]

  • Pagina 110

    3. Advanced Commands Image 3-4 Command Command [0] x20 Command [1] x95 Data Data [0]...Data[3] = signed double word 3.2.26 Window vert ical position, Read Descripti on This command returns the vertical position of the active window . Command Command [0] x21 Command [1] x95 Returned Data Data [0]...Data[3] = signed double word 3.2.27 W indow hor[...]

  • Pagina 111

    3. Advanced Commands Image 3-5 PiP : data window is reposi tionned Command Increment Command [0] x22 Command [1] x94 Decrement Command [0] x23 Command [1] x94 Data Data [0] = byRepeat : optional 3.2.28 PiP Window horizo ntal positio n, Read Min/Max Descripti on Reads the minimum/maximum value for the window horizontal position adjustments in Pi[...]

  • Pagina 112

    3. Advanced Commands Note that the panel size (projecto r version) can be read using the Panel size comma nd 3.2.29 PiP Window vertical posi tion, Read Min/Max Descripti on Reads the minimum/maximum value for the win d ow vertical position adjustments in PiP . Commands read minimum: Command [0] x26 Command [1] x95 read maximum: Command[0] x27 Co[...]

  • Pagina 113

    3. Advanced Commands Tr a n s m i t Command[0] x12 Command[1] x0e Command[2] x02 Data[0] x00 Checksum x23 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 3.2.31 Priority , Read Descripti on Reads the priority (order) of a particular window. Command Command [0] x12 Comma[...]

  • Pagina 114

    3. Advanced Commands Command Command [0] x12 Command [1] x11 Returned Data Returned data is 4 times following da ta : Data [0] = Window type byte ; 0 = Data A ; 1 = Video A ; 2 = D ata B ; 3 = Video B Data [ 1] = Window visible byte ; 0 = NO ; 1 = YES Data [2] = file found byte ; 0 = NO ; 1 = YES Data [3] = input selection byte for video windows [...]

  • Pagina 115

    3. Advanced Commands word value source 101 RGB Video 102 RG S B Video 200 DVI 0xff none 3.2.33 PiP last added window type, Read Descripti on Returns the last added window type Command Command [0] x12 Command [1] x12 Returned Data Data [0] = Window type byte ; 0 = Data A ; 1 = Video A ; 2 = D ata B ; 3 = Video B 3.3 Viewport Active, Write Descript[...]

  • Pagina 116

    3. Advanced Commands 3.4 Viewport Active, Read Descripti on Returns the status of the viewport function which allow to sele ct an area of the image (window in PiP or full screen mode) to be visible. Command Command [0] x21 Command [1] xB4 Returned Data Data[0] = one byte : 0 = not active ; 1 = active 3.5 Vie wport Active, Increm ent/decrem ent De[...]

  • Pagina 117

    3. Advanced Commands 3.7 V iewport Area, Write Descripti on Sets the area for the viewport which allows to select an area o f the image (window in PiP or full screen mode ). Image 3-7 Command Command [0] x20 Command [1] xB5 Data Data[0] = by Flag : mask b yte bit 0 = position : b it 0 = 0, position remains unchanged ; bit 0 = 1, position is adapt[...]

  • Pagina 118

    3. Advanced Commands Image 3-8 Command Command [0] x21 Command [1] xB5 Data Data[0 ...1] = wX : word (2 bytes) representing the X start positio n from the Left of the viewport relative to the desktop (image). The value is a percentage of the desktop’s width x 10000 Data[2 ...3] = wY : word (2 bytes) representing the Y start position f rom the T[...]

  • Pagina 119

    3. Advanced Commands Data[6 ...7] = wCY : word (2 bytes) representing the height of the viewport relative to the desktop (image). T he value is a percentage of the desktop’s height x 10000 3.10 Desktop area, Write Descripti on Sets the area of the desktop. For the display of a high resolution source one may use 2 projectors, the desktop area will[...]

  • Pagina 120

    3. Advanced Commands Image 3- 10 Desktop setting Command Command [0] xEF Command [1] x01 Data Data[1]...Data[4] = double word T op : describes the T op of th e desktop (example : 1). Data[5]...Data[8] = double word Left : descri bes th e Left of the desktop (example : 1). Data[9]...Data[12] = dou ble word Bottom : descr ibes the Bottom of the des[...]

  • Pagina 121

    3. Advanced Commands Commands read minimum: Command [0] x26 Command [1] x81 read maximum: Command[0] x27 Command[1] x81 Returned Data Data [0]...Data[3] = double word (4 byte s) = min/max value Data[4] = byte describing the decimal part (2 di gits) min size = 5 % max size = 135.733 % 3.12.2 Minimum/Maximum window X posit ion, Read Descripti on [...]

  • Pagina 122

    3. Advanced Commands Returned Data Data [0]...Data [3] = double word (4 bytes) = min/max value data [4] = byte describing the decimal part (2 digits) 3.12.4 Window size, Writ e Descripti on This command sets the size of the zoom window . This is done by sending a percentage, 100% corresponds to the default size of the window . Command Command [0] [...]

  • Pagina 123

    3. Advanced Commands Command Command [0] x20 Command [1] x83 Data Data [0]...Data [3] = double word(= 4 b ytes; see cha pter "1. Serial communication s Basics", "Data words", page 6) correspo nding to the desired percentage (100% = b ottom). Data [4] = unsigned byte representing 2 decim al digits (0–100). This byte is option[...]

  • Pagina 124

    3. Advanced Commands 50% corresponds to a zoom w indow in the middle of t he window . Command Command [0] x21 Command [1] x83 Data Data [0]...Data [3] = double word(= 4 b ytes; see ch apter "1. Serial communications Basics", "Data w ords", page 6) corresponding to the actual Y position (100% = right border). Data[4] = unsigned[...]

  • Pagina 125

    3. Advanced Commands 3.12.13 Window size, Decrement Descripti on This command decrements the size of the zoom window. This is done by decre menting the size percentage, the rate of decrement can also be specified Command Command [0] x23 Command [1] x81 Data Data [0] = byRepeat =1 byte to define the rate of decrement 3.12.14 Window X position, Dec[...]

  • Pagina 126

    3. Advanced Commands byte val ue: 0 = OFF; 1 = ON Example Enables the Automatic startup Tr a n s m i t Start xfe Projector address x01 Command[0] x20 Command[1] x96 Data[0] x01 Checksum xb8 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 3.14 Automatic startup, Read Des[...]

  • Pagina 127

    3. Advanced Commands Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] x96 Checksum xb8 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (awnser) Start xfe Projector address x01 Command[0] x21 Command[1] x96 Data[0] x00 Checksum xb8 St[...]

  • Pagina 128

    3. Advanced Commands Tr a n s m i t Start xfe Projector address x01 Command[0] x20 Command[1] x99 Data[0] x01 Checksum xbb Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 3.16 Startup screen, Read Descripti on Reads whether the Startup screen is enabled or not Command C[...]

  • Pagina 129

    3. Advanced Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (awnser) Start xfe Projector address x01 Command[0] x21 Command[1] x99 Data[0] x00 Checksum xbb Stop xff 3.17 Input balance Overview • Input black balance, Increment • Input black balance, De cremen[...]

  • Pagina 130

    3. Advanced Commands Command [0] x22 Command [1] x86 3.17.2 Input black balance, Decrement Descripti on Decrements the black input balance for the different color channels Commands Black input balance Red Command [0] x23 Command [1] x84 Black input balance Green Command [0] x23 Command [1] x85 Black input balance Blue Command [0] x23 Command[...]

  • Pagina 131

    3. Advanced Commands Commands Black input balance Red Command [0] x21 Command [1] x84 Black input balance Green Command [0] x21 Command [1] x85 Black input balance Blue Command [0] x21 Command [1] x86 Read Data Data [0] = lsb Data [1] = msb Example Reads the black input balance fo r Red, being x10 Tr a n s m i t Start xfe Projector address [...]

  • Pagina 132

    3. Advanced Commands Receive (Awnser) Checksum xb6 Stop xff 3.17.5 Input white balance, Increment Descripti on Increments the white input balance for t he dif ferent color channels Commands White input balance Red Command [0] x22 Command [1] x87 White input balance Gre en Command [0] x22 Command [1] x88 White input balance Blue Command [0] x[...]

  • Pagina 133

    3. Advanced Commands Command [0] x20 Command [1] x87 Black input balance Green Command [0] x20 Command [1] x88 Black input balance Blue Command [0] x20 Command [1] x89 Data Data [0] = lsb Data [1] = msb 3.17.8 Input white balance, Read Descripti on Reads the White input balance for the different color chann els from the projector Commands Whi[...]

  • Pagina 134

    3. Advanced Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Awnser) Start xfe Projector address x01 Command[0] x21 Command[1] x86 Data [0] x10 Data [1] x00 Checksum xb8 Stop xff 3.18 AutoImage setup, Write Descripti on Sets up the AutoImage i.e. selects the Au[...]

  • Pagina 135

    3. Advanced Commands Tr a n s m i t Start xfe Projector address x01 Command[0] x20 Command[1] x90 Data[0] x00 Data[1] x01 Checksum xb2 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 3.19 AutoImage setup, Read Descripti on Reads the AutoImage set up Command Command [0][...]

  • Pagina 136

    3. Advanced Commands Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] x90 Checksum xB2 Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (awnser) Start xfe Projector address x01 Command[0] x21 Command[1] x90 Data[0] x00 Data[1] x01 Che[...]

  • Pagina 137

    3. Advanced Commands Example Enables the AGC Tr a n s m i t Start xfe Projector address x01 Command[0] x20 Command[1] x9b Data[0] x01 Checksum xbd Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 3.21 Automatic G ain Control, Read Descripti on Reads whether the AGC is en[...]

  • Pagina 138

    3. Advanced Commands Tr a n s m i t Checksum xbd Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (awnser) Start xfe Projector address x01 Command[0] x21 Command[1] x9b Data[0] x00 Checksum xbd Stop xff 3.22 Manual Gain Control value, Write Descripti on Sets th[...]

  • Pagina 139

    3. Advanced Commands Tr a n s m i t Data[1] x00 Checksum xcd Stop xff Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 3.23 Manual Gain Co ntrol value, Read Descripti on Reads the actual gain control value Command Command [0] x21 Command [1] xa2 Returned Data Data [0] = lsb Data [1[...]

  • Pagina 140

    3. Advanced Commands Receive (acknowledge) Checksum x07 Stop xff Receive (awnser) Start xfe Projector address x01 Command[0] x21 Command[1] xa2 Data[0] x0a Data[1] x00 Checksum xce Stop xff 3.24 Gain Control, Increment/Decremen t Descripti on Increments/decrements the Gain Control value by one Commands increment: Command [0] x22 Command [...]

  • Pagina 141

    3. Advanced Commands Returned Data Data [0] = min/max value 3.26 Automatic Gain C ontrol interval, Write Descripti on Sets the AGC to short or long. Command Command [0] x20 Command [1] x9c Data Data [0] = byte type byte val ue: 0=s h o r t; 1=l o n g Example Sets the AGC interval to “short” Tr a n s m i t Start xfe Projector address x01 Com[...]

  • Pagina 142

    3. Advanced Commands Command Command [0] x21 Command [1] x9c Returned Data Data [0] = unsigned byte byte val ue: x00 = short ; x01 = long Example Reads the Automatic startup, being x00 = short Tr a n s m i t Start xfe Projector address x01 Command[0] x21 Command[1] x9c Checksum xbe Stop xff Receive (acknowledge) Start xfe Projector addr[...]

  • Pagina 143

    3. Advanced Commands Commands increment: Command [0] x22 Command [1] xa4 decrement: command[0] x23 command[1] xa4 3.29 Data input format, write Descripti on Sets the data input format. Command Command [0] x20 Command [1] xa4 Data Data [0] = byte type Data format byte val ue RGB 0 CrYCb 1 HDTV(CrYCb) 2 3.30 Data input format, Read Descripti on[...]

  • Pagina 144

    3. Advanced Commands 3.31 Image files Overview • Delete File(s) • Copy File • Rename File •M o v e F i l e • Image files settings, Write • Image files settings, read • Image files settings,Increment • Image files settings, Decrement • Read Minimum/Maximum Image files settings • VCO, Increment • VCO, decrement • VCO,write •[...]

  • Pagina 145

    3. Advanced Commands 3.31.2 Copy File Descripti on This command copies an image file (source file) to another file (destination file). The destination file must always be a custom f ile."Syntax", page 9 Command Command [0] xc2 Send Data strFilenameFrom strFilenameT o strFilenameFro m and strFilenameT o are strings of the C-string type.&q[...]

  • Pagina 146

    3. Advanced Commands Send Data strFilenameFrom strFilenameT o strFilenameFro m and strFilenameT o are strings of the C-string type."Syn tax", page 9 3.31.5 Image files settings, Writ e Descripti on These commands set the image files characterisitics Commands write total lines: Command [0] x20 Command [1] x58 write active lines Command [[...]

  • Pagina 147

    3. Advanced Commands Data Commands Data type total lines unsigned word (2 bytes) active lines unsigned word (2 bytes) line start unsigned word (2 bytes) period unsigned word (2 bytes) total pixels unsigned word (2 bytes) active pixels unsigned word (2 bytes) pixel start unsigned word (2 bytes) clamp width unsigned byte 3.31.6 Image files settings, [...]

  • Pagina 148

    3. Advanced Commands Read clamp width Command [0] x21 Command [1] x68 Returned Data Commands Data type total lines unsigned word (2 bytes) active lines unsigned word (2 bytes) line start unsigned word (2 bytes) period unsigned word (2 bytes) total pixels unsigned word (2 bytes) active pixels unsigned word (2 bytes) pixel start unsigned word (2 by[...]

  • Pagina 149

    3. Advanced Commands Increment pixel start Command [0] x22 Command [1] x5e Increment clamp width Command [0] x22 Command [1] x68 3.31.8 Image files settings, Decrement Descripti on These commands set the image files characterisitics Commands decrement total lines: Command [0] x23 Command [1] x58 decrement active lines Command [0] x23 Command[...]

  • Pagina 150

    3. Advanced Commands 3.31.9 Read Minimum/Maximum Image files se ttings Descripti on These commands read the min/max values of the image files settings Commands minimum total lines: Command [0] x26 Command [1] x58 maximum total lines Command [0] x27 Command [1] x58 minimum active lines Command [0] x26 Command [1] x59 maximum active lines Comma[...]

  • Pagina 151

    3. Advanced Commands Command [0] x26 Command [1] x5d maximum active pi xels Command [0] x27 Command [1] x5d minimum pixel start Command [0] x26 Command [1] x5e maximum pixel start Command [0] x27 Command [1] x5e minimum clamp width Command [0] x26 Command [1] x68 maximum clamp width Command [0] x27 Command [1] x68 3.31.10 VCO, Increment[...]

  • Pagina 152

    3. Advanced Commands Command Command [0] x23 Command [1] xa8 3.31.12 VCO,wr ite Descripti on Writes a new VCO value to the p rojector Command Command [0] x20 Command [1] xa8 Data Data [0] = VCO value Data[0] = unsigned byte The range can be found with the “read max /min” commands: range min: "Minimum V CO, Read", page 151 range ma[...]

  • Pagina 153

    3. Advanced Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff Receive (Answer) Start xfe Projector address x01 Command[0] x21 Command[1] xa7 Data [0] x00 Checksum xc9 Stop xff 3.31.14 Minimum VCO, Read Descripti on Reads the minimum (range) VCO value of the projector Comm[...]

  • Pagina 154

    3. Advanced Commands Command [0] x22 Command [1] x9d decrement: command[0] x23 command[1] x9d 3.31.17 charge pump current, Write Descripti on Sets the charge pump current for the VCO Command Command [0] x20 Command [1] x9d Data Data [0] = byte type 3.31.18 charge pump current , Read Descripti on Reads the charge pump current Command Command [[...]

  • Pagina 155

    3. Advanced Commands 3.31.20 Clamp position, Increment/De crement Descripti on Increments/decrements the Clamp position by one Commands increment: Command [0] x22 Command [1] x9e decrement: command[0] x23 command[1] x9e 3.31.21 Clamp position, W rite Descripti on Sets the clamp position. Command Command [0] x20 Command [1] x9e Data Data [0] =[...]

  • Pagina 156

    3. Advanced Commands Command[0] x27 Command[1] x9e Returned Data Data [0] = min/max value 3.31.24 Comb filter , Increment/Decrement Descripti on Increments/decrements the Comb filter setting (on/off) by one Commands increment: Command [0] x22 Command [1] xa0 decrement: command[0] x23 command[1] xa0 3.31.25 comb filter , Write Descripti on Ena[...]

  • Pagina 157

    3. Advanced Commands Receive (acknowledge) Start xfe Projector address x01 Command[0] x00 Command[1] x06 Checksum x07 Stop xff 3.31.26 Comb filter , Read Descripti on Reads whether the comb filter is enabled or not Command Command [0] x21 Command [1] xa0 Returned Data Data [0] = unsigned byte byte val ue: x00 =O F F; x01 =O N Example Read[...]

  • Pagina 158

    3. Advanced Commands Receive (awnser) Start xfe Projector address x01 Command[0] x21 Command[1] xa0 Data[0] x00 Checksum xc2 Stop xff 3.31.27 Minimum/Maximum comb filter , Read Descripti on Reads the minimum/max co mb filter Commands read minimum: Command [0] x26 Command [1] xa0 read maximum: Command[0] x27 Command[1] xa0 Returned Data D[...]

  • Pagina 159

    3. Advanced Commands Command [0] x26 Command [1] xa9 read maximum: Command[0] x27 Command[1] xa9 Returned Data Data [0] = min/max value 3.31.30 Horizontal sync polarity , Read Descripti on Reads the Horizontal sync polarity setting Command Command [0] x21 Command [1] xa9 Returned Data Data [0] = byte : 0 = active low ; 1 = active high ; 2 = a[...]

  • Pagina 160

    3. Advanced Commands 3.31.33 Min imum/Maxim um Horizonta l Sync locking , Read Descripti on Reads the minimum/max Sync locking Commands read minimum: Command [0] x26 Command [1] xab read maximum: Command[0] x27 Command[1] xab Returned Data Data [0] = byte : 0 = slow ; 1 = fast 3.31.34 S ync l ocking, Read Descripti on Reads the Sync locking set[...]

  • Pagina 161

    3. Advanced Commands Sent Data Data[0] = bySlaveAdd r1 Data[1] = bySlaveAdd r2 ... Data[N-1] = bySlaveAddrN bySlaveAddrn = by te representing the address of the modu le or unit to be diagnosed. If ommited, all all th e units are reported. Unit Hex address Motor driver x74 Lamp driver x78 Video processor x96 Fpga backplane1 xb4 Fpga backplane2 [...]

  • Pagina 162

    3. Advanced Commands for xga resolution panels : wpixels = 1024 ; wlines = 768 lines 3.34 Logo status, Read Descripti on Reads the status of the logo. Command Command [0] xf1 Command [1] x01 Returned Data Data [0] =byStatus = 1 byte representing the status of the logo bit7 bit6 bit5 bit 4 bit3 bit2 bit1 bit0 - - - - - saving valid full screen act[...]

  • Pagina 163

    3. Advanced Commands Receive (acknowledge) Checksum x07 Stop xff 3.36 Save screenshot (Logo) Descripti on Saves the previously taken screenshot (see the “take screen shot”command, "T ake screenshot (Logo)", page 160)from the SDR AM to a flash mem ory . load logo save logo take screenshot F l a s h m e m o r y S D R A M abort save lo[...]

  • Pagina 164

    3. Advanced Commands load logo save logo take screenshot F l a s h m e m o r y S D R A M abort save logo Image 3- 12 Command Command [0] xf1 Command [1] x88 3.38 Load logo Descripti on Loads the logo (present in the flash memory) in the SDRAM. 162 R5976884 RLM SERIES 04/04/2006[...]

  • Pagina 165

    3. Advanced Commands load logo save logo take screenshot F l a s h m e m o r y S D R A M abort save logo Image 3- 13 Command Command [0] xf1 Command [1] x88 R5976884 RL M SERIES 04/04/2006 163[...]

  • Pagina 166

    3. Advanced Commands 164 R5976884 RLM SERIES 04/04/2006[...]

  • Pagina 167

    4. RCU commands 4. RCU COMMANDS 4.1 Overview Introduction The RCU keys can be simulated by using the RCU command x30 (see RCU comman ds command) followed by one of the following codes. Key simulation will only work if the f unction is supported by the firm ware. RCU Button Command 0 x19 1 x10 2 x11 3 x12 4 x13 5 x14 6 x15 7 x16 8 x17 9 x[...]

  • Pagina 168

    4. RCU commands Button Command T reble “+” x3c T reble “-” x3d Balance + x3e Balance - x3f Ti nt x31 Ti nt “ - “ x2e Ti nt “ + ” x2f Pause x0f Phase x32 Phase “+” x34 Phase “-” x35 Sharpness “+” x36 Sharpness “-” x37 ↑ x04 ↓ x05 Menu x09 Exit x08 Address x20 ← x07 → x06 Enter x0a Freeze [...]

  • Pagina 169

    4. RCU commands Button Command Lens shift down x71 Digital zoom up x7d Digital zoom down x7e Logo x78 PiP adj x68 Lens adj x77 R5976884 RL M SERIES 04/04/2006 167[...]

  • Pagina 170

    4. RCU commands 168 R5976884 RLM SERIES 04/04/2006[...]

  • Pagina 171

    Revision Sheet To : Barco nv Even ts/Documentation Noordlaan 5, B-8520 Kuurne Phone: +32 56.36.89.70, F ax: +32 56.36.88.24 E-mail: service.media_and_entertainmen t.emea@barco.com, Web: www.barco.com From: Date: Please correct the following points in this documentation ( R5976884/02 ): page wrong correct R5976884 RLM SERIES 04/04/2006[...]