Roland VM-7200, VM-7100 manual Tableau d’adressage pour le transfert des données

Page 36

Equipement MIDI

2. Tableau d’adressage pour le transfert des données

La valeur de chaque adresse est exprimée en nom re hexadécimal à 7 octets.

+——————————————————————————————————————————————————————————————————+

Adresse MSB MID LSB —————————————————————+——————————————+——————————————+——————————————+

NRPN

0000 0000

0mmm mmmm

0lll llll

 

00

MM

LL

—————————————————————+——————————————+——————————————+——————————————+

Binaire

0aaa aaaa

0bbb bbbb

0ccc cccc

Hexadécimal

AA

BB

CC

+——————————————————————————————————————————————————————————————————+

Données MIDI - Table de fréquences d’égalisation du mixer

+——————+————————++——————+————————++——————+————————++——————+————————+ Donn Freq(Hz) Donn Freq(Hz) Donn Freq(Hz) Donn Freq(Hz) +——————+————————++——————+————————++——————+————————++——————+————————+

00H

16.0

20H

100

40H

630

60H

4.00k

01H

17.0

21H

106

41H

670

61H

4.22k

02H

18.0

22H

112

42H

710

62H

4.50k

03H

19.0

23H

120

43H

750

63H

4.73k

04H

20.0

24H

125

44H

800

64H

5.00k

05H

21.0

25H

133

45H

840

65H

5.30k

06H

22.4

26H

140

46H

900

66H

5.60k

07H

23.7

27H

150

47H

944

67H

6.00k

08H

25.0

28H

160

48H

1.00k

68H

6.30k

09H

26.6

29H

170

49H

1.06k

69H

6.70k

0AH

28.0

2AH

180

4AH

1.12k

6AH

7.10k

0BH

30.0

2BH

190

4BH

1.20k

6BH

7.50k

0CH

31.5

2CH

200

4CH

1.25k

6CH

8.00k

0DH

33.5

2DH

210

4DH

1.33k

6DH

8.40k

0EH

35.5

2EH

224

4EH

1.40k

6EH

9.00k

0FH

37.6

2FH

237

4FH

1.50k

6FH

9.44k

10H

40.0

30H

250

50H

1.60k

70H

10.0k

11H

42.2

31H

266

51H

1.70k

71H

10.6k

12H

45.0

32H

280

52H

1.80k

72H

11.2k

13H

47.3

33H

300

53H

1.90k

73H

12.0k

14H

50.0

34H

315

54H

2.00k

74H

12.5k

15H

53.0

35H

335

55H

2.10k

75H

13.3k

16H

56.0

36H

355

56H

2.24k

76H

14.0k

17H

60.0

37H

376

57H

2.37k

77H

15.0k

18H

63.0

38H

400

58H

2.50k

78H

16.0k

19H

67.0

39H

422

59H

2.66k

79H

17.0k

1AH

71.0

3AH

450

5AH

2.80k

7AH

18.0k

1BH

75.0

3BH

473

5BH

3.00k

7BH

19.0k

1CH

80.0

3CH

500

5CH

3.15k

7CH

20.0k

1DH

84.0

3DH

530

5DH

3.35k

7DH

21.0k

1EH

90.0

3EH

560

5EH

3.55k

7EH

22.4k

1FH

94.4

3FH

600

5FH

3.76k

7FH

23.7k

+——————+————————++——————+————————++——————+————————++——————+————————+

Données MIDI - Table des bandes Q d’égalisation du mixer

+——————+————————++——————+————————++——————+————————+ Donn Q Donn Q Donn Q +——————+————————++——————+————————++——————+————————+

00H

0.355

10H

2.24

20H

14.0

01H

0.400

11H

2.50

21H

16.0

02H

0.450

12H

2.80

03H

0.500

13H

3.15

04H

0.560

14H

3.55

05H

0.630

15H

4.00

06H

0.710

16H

4.50

07H

0.800

17H

5.00

08H

0.900

18H

5.60

09H

1.00

19H

6.30

0AH

1.12

1AH

7.10

0BH

1.25

1BH

8.00

0CH

1.40

1CH

9.00

0DH

1.60

1DH

10.0

0EH

1.80

1EH

11.2

0FH

2.00

1FH

12.5

+——————+————————++——————+————————++——————+————————+

Données MIDI - Table de gains d’égalisation du mixer

+——————+—————————+

Donn

Gain

+——————+—————————+

00H

-32.0dB

01H

-31.5dB

02H

-31.0dB

 

:

 

:

 

:

 

:

3EH

-1.0dB

3FH

-0.5dB

40H

0.0dB

41H

+0.5dB

42H

+1.0dB

 

:

 

:

 

:

 

:

7EH

+31.0dB

7FH

+31.5dB

+——————+—————————+

 

 

HFD GAIN

04H

(-30.0 dB) – 40H

(0.0 dB) – 4CH (+6.0 dB)

LFD GAIN

04H

(-30.0 dB) – 40H

(0.0 dB) – 4CH (+6.0 dB)

EQ GAIN

22H

(-15.0 dB) – 40H

(0.0 dB) – 5EH (+15.0 dB)

Données MIDI - Table de rapports d’expansion/ compression (RATIO)

+——————+—————————+

Donn

RATIO

+——————+—————————+

00H

1:1.0

(OFF)

01H

1:1.1

02H

1:1.2

03H

1:1.4

04H

1:1.6

05H

1:1.8

06H

1:2.0

07H

1:2.5

08H

1:3.1

09H

1:4.0

0AH

1:5.6

0BH

1:8.0

0CH

1:16

0DH

1:INF

+——————+—————————+

Adresses des blocs de paramètres

<Identification de modèle = 00H 1EH>

+——————————+————————————————————————————————————————————————————————————+

Adresse

 

départ

Bloc

==========+============================================================

00 00 00 Bloc système1-1 ——————————+————————————————————————————————————————————————————————————

00 10 00 Bloc Mixer

1-2

:

 

:

 

:

 

——————————+————————————————————————————————————————————————————————————

00 50 00 Bloc d’effets1-3 ——————————+————————————————————————————————————————————————————————————

00

60

00

(Réservé)

 

 

:

 

 

:

 

7F

7F

7F

 

+——————————+————————————————————————————————————————————————————————————+

1-1. Bloc système

+————————————————————————————————————————————————————————————————————————+

Adresse

 

Offset

Données

Contenus et remarques

==========+=========+===================================================

00 00

00

0aaaaaaa Révision du mogiciel

(*1)

00 00

01#

0bbbbbbb

 

——————————+—————————+———————————————————————————————————————————————————

00 00 02 00 - 3F Options disponibles (*1)

0 0 x x - x x x x

36

Image 36
Contents Mode D’EMPLOI RolandPour le Canada Consignes DE Securité Precautions Installation des options SommaireFonctions principales Connexions de baseEmplacement MaintenanceAlimentation électrique Précautions additionnellesJusqu’à 9 groupes d’effets stéréo avec la VS8F-2 installée Un concept révolutionnaire systèmes indépendantsUne panoplie complète de connecteurs d’entrée/sortie Permet d’utiliser jusqu’à 9 effets stéréo étonnantsDifférences entre VM-7200 et VM-7100 Equipé d’un analyseur de spectrePrises d’entrée analogique Prises de sortie analogiqueFace avant InputCtrl Control Servir lorsque Digital a in est utiliséFace arrière Recevoir et émettre des signaux audio analogiquesServir lorsque Digital B in est utilisé Cache arrière VM-24C RolandPrécautions à prendre lors de l’installation des options Installation d’un processeur d’effets VS8F-2Installation des connecteurs VM-24E du R-BUS RMDB2 Installation des optionsArrière. Conserve le cache arrière en lieu s r Installation du kit Cascade VM-24C 0965Changement du système de montage en rack RO-7000 Connexion à la console VM-LINK Connexion à la VM-C7200Connexion à la VM-C7100 02eMise sous tension CoupureChe Mute ALL Outputs Extinction Mise hors tension 07eDifférentes configurations de connexion Précautions pour connecter des microphonesEmploi d’effets externes Insert ’étape07e Connexion du DIF-AT Roland Connexion R-BUS RMDB2 Connexion de l’adat AlesisConnexion de la gamme DA Tascam 09eConnexion de deux processeurs Connexion en cascade 10eConnexion pour transmission de Word Clock 11ePas de son Pas de son d’une voie spécifiqueLe son souffre de bruit ou de distorsion ’effet ne s’applique pas Impossible de faire la connexion en cascadeDonnées transmises et reconnues Réception de données Message de voix par canalPression polyphonique Changement de contrôleurCe message est reçu dans les cas suivants Ce message est transmis dans les cas suivantsPitch bend Entrée de donnée MSB/LSBCe message est transmis dans le cas suivant Augmentation de la valeurMessages de système exclusif Messages exclusifs universelsPropos de l’identification de modèle Model ID Propos de l’identification d’unité Device IDTransfert de données RQ1, DT1 Tableau d’adressage pour le transfert des données Données Midi Table de fréquences d’égalisation du mixerDonnées Midi Table des bandes Q d’égalisation du mixer Données Midi Table de gains d’égalisation du mixerBloc Mixer Paramètres du pré-ampliParamètres d’entrée Input Paramètres Multi Paramètres d’intercommunication Talkback Paramètres des busParamètres des sorties Output Paramètres SoloParamètres du Fader Group Master Paramètres de la section d’effetsParamètres de la section Master Effect Paramètres de mise en cascadeParamètres de diffusion Dither Paramètres GEN/OSCParamètres Level Meter / Analyzer Paramètres diversBloc d’effets Adresse de base Name Parameter Area See Below38Stero 2Band Dynamics 39Dual Mono Dynamics 39Dual Mono Dynamics +---------+ Algorithme 1 Delay Algorithme 0 ReverbAlgorithme 2 Stereo Delay Chorus Algorithme 3 Stereo Pitch Shifter DelayAlgorithme 6 Delay RSS Algorithme 4 VocoderAlgorithme 5 2CH RSS Algorithme 7 Chorus RSS Communs aux algorithmes 8, 9, 10 Guitar Multi 1, 2Individuel Algorithme 8 Guitar Multi Individuel Algorithme 9 Guitar Multi Individual Algorithm 10 Guitar MultiAlgorithme 11 Vocal Multi Algorithme 14 Stereo Phaser Algorithme 12 RotaryAlgorithme 13 Guitar AMP Simulator Algorithme 16 Dual Compressor/Limiter Algorithme 15 Stereo FlangerAlgorithme 18 Multi Tap Delay Algorithme 17 Gate ReverbAlgorithme 19 Stereo Multi Algorithme 20 Reverb Algorithme 21 Space ChorusAlgorithme 22 Lo-Fi Processor Algorithme 23 4 Band Parametric EQAlgorithme 25 Hum Canceler Algorithme 26 Vocal CancelerAlgorithme 24 10 Band Graphic EQ Algorithme 27 Voice Transformer FX1, FX3, FX5 ou FX7 Algorithme 28 Vocoder 2 FX1, FX3, FX5 ou FX7Algorithme 29 Mic Simulator Algorithme 30 3 Band IsolatorAlgorithme 33 Analog Phaser Algorithme 31 Tape EchoAlgorithme 34 FFT FX1, FX3, FX5 ou FX7 Algorithme 32 Analog FlangerAlgorithme 36 Mastering Tool Kit FX1, FX3, FX5 ou FX7 Algorithme 37 31Band Graphic Equalizer FX1, FX3, FX5 ou FX7 Algorithme 38 Stereo 2Band Dynamics Algorithme 39 Dual Mono DynamicsEffet Master Algorithme 0 Speaker Modeling Effet Masetr Algorithme 1 10Band Parametric Equalizer Effet Master Algorithme 2 3Band DynamicsMidi Machine Control MMC Midi Machine Control DétailsFormat 1 Locate I/F Format 2 Locate TargetAppendices Modèle VM-7200, VM-7100Tableau déquipement Midi Traitement du signal Impédance en charge recommandéeVoies Fréquence d’échantillonnageDimensions AccessoiresConnecteurs et prises Alimentation électriqueClass B Afrique

VM-7200, VM-7100 specifications

The Roland VM-7100 and VM-7200 are advanced video switchers designed for professional live production and broadcast environments. These models are part of Roland’s celebrated video mixing series, known for their reliability and innovative features that meet the demands of both small and large-scale operations.

One of the standout features of the VM-7100 and VM-7200 is their high-definition video processing capability. Both models support up to 4K resolution, providing crystal-clear image quality essential for modern video production. This allows users to seamlessly switch between multiple sources, including cameras, graphics, and video playback devices, all while maintaining high fidelity.

In terms of connectivity, the VM-7100 and VM-7200 are versatile, equipped with various input and output options. With multiple HDMI and SDI inputs, these switchers can handle a variety of video sources. The VM-7200 goes a step further with additional support for multi-view outputs, enabling operators to monitor all sources in one comprehensive view. This feature enhances workflow efficiency during live broadcasts.

The user interface of both models is designed to be intuitive, featuring a responsive touchscreen panel that allows for quick navigation and control. Customizable buttons provide users with the ability to streamline their operations by assigning frequently used functions at their fingertips. This level of customization is especially beneficial in fast-paced environments where time is of the essence.

Both switchers also incorporate advanced video effects and transitions that can significantly enhance live production. Users can take advantage of built-in transitions like wipes and fades, as well as picture-in-picture (PiP) effects, to create dynamic visual presentations. The ability to add overlays and graphics further enriches the audience's viewing experience.

Incorporating Roland’s proprietary technologies, the VM-7100 and VM-7200 offer low latency switching ensuring that transitions between video sources are smooth and free of delays. This is particularly crucial during live events where timing is critical.

In conclusion, the Roland VM-7100 and VM-7200 are powerful tools for any professional video production setting. Their high-definition capabilities, extensive connectivity options, intuitive interface, and advanced effects make them essential for broadcasters looking to elevate their live production quality. With these features, Roland continues to lead the way in innovative video solutions, catering to the evolving needs of the industry.