Yamaha Dme N Remote Control Protocol Specifications

DME Series Remote Control Protocol V3.1(2nd Edition) dme_remote_ctrl_prtcl3102_en

DME-N Remote Control Protocol Specifications V3.1(2nd Edition) dme_remote_ctrl_prtcl3102_en

: Yamaha Dme-N-Remote-Control-Protocol-Specifications yamaha-dme-n-remote-control-protocol-specifications-647431 yamaha pdf

Open the PDF directly: View PDF .
Page Count: 23

V

er. 3.1 2nd edition

* This protocol document relates to the DME64N, DME24N, and DME Satellite

with DME firmware V1.2 or later.

DME Remote Control Protocol

Specifications

1. Setup

1.1 Connection

To control one DME

To control multiple DMEs

To debug the Remote Controller with a serial control application on a PC such as Hyper Terminal

To use the NETWORK connector for Remote Control with the DME communication protocol

(Not supporting DME64N/24N V3.5 or earlier)

REMOTE connector pin assignment

RS-232C RS-422

Pin Pin Pin Pin

1Not in use －6 DSR Iｎ1Not in use －6 Rx+ Iｎ

2 RxD Iｎ7 RTS Out 2 Rx- Iｎ7 RTS Out

3 TxD Out 8 CTS Iｎ3 Tx- Out 8 CTS Iｎ

4 DTR Out 9 Not in use - 4 Tx+ Out 9 Not in use -

5 GND －5 GND －

The pin 4 and 6 are internally shorted. The pin 7 and 8 are internally shorted.

The pin 7 and 8 are internally shorted.

Available crossover cable wirin

g

s

11

222 2

333 3

444 4

555 5

666 6

777 7

888 8

(interlink cross)

Multiple DMEs can be controlled individually by connecting them as shown below.

Name Iｎ/Out Name Iｎ/Out Name Iｎ/Out Name

Connect the Remote controller/PC to the REMOTE connector on the rear panel of the DME using a RS-232C or a RS-422

crossin

g

cable

(

D-sub; 9

p

in female-to-female

)

.

Iｎ/Out

Remote Controller RS-232C or RS-422 DME

Remote Controller

RS

-

232C

or

RS

-

422

DME 1 (Master)

DME 2

(

Slave

)

RS-232C DME

Remote Controller

Ethernet Network

Switch

Remote Controller

Ethernet

Ethernet

DME Remote Control Protocol Specifications V3.1 2

1.2 Remote Controller Setting

The Remote Controller settings for each connection are indicated as below.

Settings for control via the REMOTE connector

Baud Rate : 38400 bps

Data : 8bit

Parity : none

Stop Bit : 1bit

Flow Control : none

Settings for control via Ethernet (the NETWORK connector; not supporting DME64N/24N V3.5 or earlier)

IP Address: Specify the IP address of the DME Satellite to be controlled.

IP Poｒｔ No.: S

p

ecif

y

the IP Port No. that is set to the DME Satellite to be controlled.

1.3 DME Setting

The DME series settin

g

s for connection via the both connector are indicated as below.

1.3.1. DME series V3.8 or later

To dis

p

la

y

the setu

p

window

From DME Desi

g

ne

r

From the DME

p

anel dis

p

la

y

(

onl

y

for DME64N/24N

)

To set the

p

arameter values

For control via the REMOTE connector

Select "Remote

(

RS-232C

)

" to control the DME via the RS-232C connection.

Select "Remote

(

RS-422

)

" to control the DME via the RS-422 connection.

For control via Ethernet

(

the NETWORK connector

)

Select "Network".

1.3.2. DME64N/24N V3.5 or earlier

(

not su

pp

ortin

g

the control via Ethernet

)

To dis

p

la

y

the setu

p

window

From DME Desi

g

ne

r

From the DME

p

anel dis

p

la

y

To set the

p

arameter values

Select "Remote Ctrl

(

232C

)

" to control the DME via the RS-232C connection.

Select "Remote Ctrl

(

422

)

" to control the DME via the RS-422 connection.

1.3.3. DME Satellite V3.5 or earlier

To dis

p

la

y

the setu

p

window

To set the

p

arameter values

For control via the REMOTE connector

Select "Remote Ctrl

(

232C

)

" as the Remote

p

arameter to control the DME via the RS-232C connection.

Select "Remote Ctrl

(

422

)

" as the Remote

p

arameter to control the DME via the RS-422 connection.

For control via Ethernet

(

the NETWORK connector

)

Check the checkbox for

[

Remote Control via Ethernet

]

.

The DME series can be controlled from an external device via the REMOTE connector or Ethernet (NETWORK connector; not

supporting DME64N/24N V3.5 or earlier).

The DME series can be controlled from an external device via the REMOTE connector or Ethernet (NETWORK connector; not

supporting DME64N/24N V3.5 or earlier).

Hold down the [Utility] button for three seconds to show the Utility display, then press the [Utility] butto

n

re

p

eatedl

y

until the Misc

p

a

g

e is shown. On the

p

a

g

e, select the Remote

p

arameter.

After going online between DME Designer and the DME series, open the [Hardware] menu -> [Utility] -> [Misc]

p

a

g

e of DME Desi

g

ner.

Generally the IP Port No. does not have to be set. However, it needs to be changed when the network consists of

another network device than the DME series and the network device has the same IP Port No. as the DME

series. Changing the port automatically resets the network connection on the DME, which means that DME

Designer needs to be restarted.

After going online between DME Designer and the DME series, open the [Hardware] menu -> [Utility] -> [Remote]

p

a

g

e of DME Desi

g

ner, then set the DME Remote Control

p

arameter.

Hold down the [Utility] button for three seconds to show the Utility display, then press the [Utility] butto

n

re

p

eatedl

y

until the Remote

p

a

g

e is shown. On the

p

a

g

e, set the Rmt Ctrl

p

arameter.

For only the DME Satellite, set the DIP switch (leftmost) on the rear panel to "RS-232C" (up) or "RS-422" (down)

while the

p

ower is off as well. If the settin

g

is chan

g

ed, the DME Satellite needs to be restarted.

Set the DIP switch (leftmost) on the rear panel to "RS-232C" (up) or "RS-422" (down) while the power is off as

well. If the settin

g

is chan

g

ed, the DME needs to be restarted.

After going online between DME Designer and the DME series, open the [Hardware] menu -> [Utility] -> [Misc]

p

a

g

e of DME Desi

g

ner, then set the Remote

p

arameter.

Generally the IP Port No. does not have to be set. However, it needs to be changed when the network consists of

another network device than the DME series and the network device has the same IP Port No. as the DME

series. Changing the port automatically resets the network connection on the DME, which means that DME

Designer needs to be restarted.

DME Remote Control Protocol Specifications V3.1 3

1.4 DME Designer Settings

* What is an index?

An index is the row number in the Remote Control Setup List dialog. You will see each index number at the left column of the list.

1.4.1 DME Parameter Control

Register a DME parameter to be controlled.

An example:

Remote Control Setup List dialog

Function: "Parameter Value Edit" is chosen.

Parameter: A parameter to be controlled is chosen.

To control a fader parameter, choose either "Curve Table method" or "dB method" for a parameter value in the Type column.

Curve Table Method

dB Method

An example:

To control a Fader component level in accordance with a curve table and dB method:

Remote Control Setup List dialog

Function: "Parameter Value Edit" is chosen.

Parameter: A parameter to be controlled is chosen.

Type: An assigning method for a fader parameter is chosen.

1.4.2 Obtaining DME Level Meter

An example:

To obtain a level meter for a fader component and a Cascade Output component:

Remote Control Setup List dialog

Function: Level Meter is chosen.

Parameter: A component for which the user would like to obtain a level meter is chosen.

Re

g

ister a com

p

onent for which the user would like to obtain a level meter value.

A parameter or level meter should be registered in each index of the "Remote Control Setup List" dialog on the DME Designer

to control the parameter or obtain the level meter. DME will identify a parameter or level meter to be controlled by including

the index* in a command.

To control ON/OFF of a Fader component and a Source Selector component:

A method to assign a fader value from 0 to 1023. When Remote Controller transmits a value from 0 to 1023,

DME will set the value (dB) converted by the internal fader curve table to a fader. Adopting this method will

enable the user to control a fader easily without considering a fader dB curve.

A method to assign a fader in dB units.

DME Remote Control Protocol Specifications V3.1 4

2. Command List

Commands Notified to Remote Controller from the DME

No.

1 PRM To notify a parameter change

2 VOL To notify a parameter change

3 SCN To notify scene recall

4 CSN To notify a scene recall number

5 SNM To notify a scene name

6 Level Meter MTR To notify a meter position

7 Mute Control MUTE To notify mute set/cancel

Commands for Controlling the DME

No.

8 SPR To set a parameter

9 SVL To set a parameter (curve table method)

10 RSPR To relatively set a parameter

11 RSVL To relatively set a parameter (curve table method)

12 GPR To obtain a parameter

13 GVL To obtain a parameter (curve table method)

14 RSC To recall a scene (assigning a scene number)

15 RRSC To recall a scene (assigning a relative value)

16 GCS To obtain a current scene number

17 GSN To obtain a scene name

18 GMT To obtain a level meter position

19 GCMT To set cyclical obtaining of a level meter position

20 QCMT To stop cyclical obtaining of a level meter position

21 SMC To set the cyclical period for obtaining a level meter position

22 SMUT To set/cancel mute

23 GMUT (*1) To obtain mute condition

24 GPI Control SGO To control GPI OUT

25 PWF To play back a file

26 SWF (*1) To stop playback of a file

Utility Commands

No.

27 For debug ECHO To set/cancel echo back

*1 Available only for DME firmware V3.11 or later

WAV FILE PLAYER Control

Scene Control

Category Command Definition

Parameter Control

Command

Category Command Definition

Parameter Control

Scene Control

Category Definition

Level Meter

Mute Control

DME Remote Control Protocol Specifications V3.1 5

3. Command Specifications

3.1 Basic Command Specifications

A command type transmitted between the DME and the Remote Controller is in the following format:

<Command name> <Option 1> <Option 2> … <Option n><Line feed>

- LF (0 x 0A) will be needed at the end of a command as a line feed code.

- At least one space will be needed between a command name and an option or between options.

- A command must consist of only ASCII character strings. Other character strings cannot be used.

- Optional character strings for parameter values are shown in the following table.

-Inf -13801

-18dB -1800

-6.5dB -650

0dB 0

10dB 1000

2kHz 2000

400Hz 400

Pan L 63 -63

Pan Cente

r

0

Pan R 63 +63

ON 1

OFF 0

REVERSE 1

NORMAL 0

Character strings such as "ON" or "HARD" are not returned as a parameter value.

- A fader parameter value will take the following character strings using a curve table method.

(See chapter 1.4.1 for details on curve table methods and the Appendix at the end for values in dB and the character strings.)

A table for a fader of which maximum is 0 dB A table for a fader of which maximum is 10 dB

-Inf 0 -Inf 0

-60dB 173 -60dB 123

-40dB 323 -40dB 223

-30dB 423 -30dB 323

-20dB 623 -20dB 423

-10dB 823 -10dB 623

0dB 1023 0dB 823

10dB 1023

3.2 Command Notified to Remote Controller from the DME

3.2.1 Parameter Control Command

1) PRM: Used to change a parameter other than a fader parameter, and a fader using a dB method.

2) VOL: Used to change a fader using a curve table method.

Command Option

PRM 0 [index] [parameter value]

VOL 0 [index] [level value]

The command names stand for "Parameter" and "Volume" respectively.

These commands will be sent from the DME when a parameter registered in Remote Control Setup List of DME Designer is changed

- The first option will always take "0." It can be ignored for the controller; it is reserved for future extensions to the command.

- [index], [parameter value] and [level value] should have appropriate character strings.

- A space will be needed between the command and the option, and between the options.

E.g.) A character string sent from the DME when a parameter for an index of 3 (using a dB method) is changed to -20dB.

PRM 0 3 -2000

V

OL 0 4 423

Values Character string

s

A character string sent from the DME when a parameter for an index of 4 (using a curve table method, 10dB at

the maximum) is changed to -20dB.

Values Character strings

Values Character strings

DME Remote Control Protocol Specifications V3.1 6

3.2.2 Scene Control Command

3) SCN: Used when a scene is recalled.

Command Option

SCN 0 [scene number]

The command name stands for "Scene."

The DME will send the command when a scene is recalled.

- The first option will always take "0." It can be ignored for the controller; it is reserved for future extensions to the command.

- [scene number] will have an appropriate character string.

- A space will be needed between the command and the option, and between the options.

E.g.) A character string sent to the controller from the DME when Scene 8 is recalled.

SCN 0 8

3.2.3 Mute Control Command

7) MUTE: Used when mute condition is changed

Command Option

MUTE 0 [ON/OFF]

The DME will send the command when Mute ON/OFF is switched.

- The first option will always take "0." It can be ignored for the controller; it is reserved for future extensions to the command.

- The second option will have a character string, either "ON" or "OFF".

- A space will be needed between the command and the option, and between the options.

E.g.) A character string sent to the controller from the DME when Mute is switched off.

MUTE 0 OFF

3.3 Command for the DME Control

3.3.1 Parameter Control Command

8) SPR: Used to set a parameter other than a fader parameter, and a fader using a dB method.

9) SVL: Used to set a fader using a curve table method.

Command Option The DME's ACKs when it succeeds The DME's ACKs when it fails

SPR 0 [index] [parameter value] SPR OK SPR ER

R

PRM 0 [index] [parameter value]

SVL 0 [index] [curve value] SVL OK SVL ER

R

VOL 0 [index] [level value]

The command names stand for "Set Parameter" and "Set Volume" respectively.

- The first option will always take "0." It is reserved for future extensions to the command.

- [index], [parameter value] and [curve value] should have an appropriate number by a character string.

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To change a parameter of an index of 5 to -30dB using a dB method.

SPR 0 5 -3000

To change a parameter of an index of 6 to -30dB using a curve table method (10dB at the maximum).

SVL 0 6 323

- The DME will return two lines of character strings if it succeeds.

The first line should be a character string, either "SPR OK" or "SVL OK".

For details on the character strings "PRM" and "VOL" in the second line, see chapter 3.2.1.

The first line can be ignored; check the second line to find the value after a parameter is changed for a controller.

- The DME will return a character string of either "SPR ERR" or "SVL ERR" if it fails.

E.g.) ACK when it succeeds in changing a parameter of an index of of 5 to -30dB using a dB method.

SPR O

K

PRM 0 5 -3000

ACK when it fails in changing a parameter of an index of of 5 to -30dB using a dB method.

SPR ER

R

DME Remote Control Protocol Specifications V3.1 7

SVL O

K

V

OL 0 6 323

SVL ER

R

10) RSPR: Used to relatively set a parameter other than that for a fader, and a fader using a dB method.

11) RSVL: Used to relatively set a fader using a curve table method.

Command Option The DME's ACKs when it succeeds The DME's ACKs when it fails

RSPR 0 [index] [relative parameter value] RSPR OK RSPR ER

R

PRM 0 [index] [parameter value]

RSVL 0 [index] [relative curve value] RSVL OK RSVL ER

R

VOL 0 [index] [level value]

The command names stand for "Relatively Set Parameter" and "Relatively Set Volume" respectively.

- The first option will always take "0." It is reserved for future extensions to the command.

- [index] should have an appropriate number by a character string.

- An appropriate relative value should be given by a character string to [relative parameter value] and [relative level value].

- One or more spaces are needed between the command and the option, and between the options.

E.g.) When changing a parameter of an index of 5 to +30dB using a dB method.

RSPR 0 5 3000

When changing a parameter of an index of 5 to -30dB using a dB method.

RSPR 0 5 -3000

When increasing a parameter of an index of 6 by 10 steps using a curve table method.

RSVL 0 6 10

When decreasing a parameter of an index of 6 by 10 steps using a curve table method.

RSVL 0 6 -10

- The DME will return two lines of character strings if it succeeds.

The first line will be a character string; "RSPR OK" or "RSVL OK".

For details on the character strings "PRM" and "VOL" in the second line, see chapter 3.2.1.

Ignore the first line but see only the second line to find a value after a parameter is changed for a controller.

- If it fails, the DME will return one line of a character string, either "RSPR ERR" or "RSVL ERR."

E.g.) ACK when it succeeds in changing a parameter of an index of 5, which is originally -20dB, to -30dB using a dB method.

RSPR O

K

PRM 0 5 -5000

ACK when it fails in changing a parameter of an index of 5, which is originally -20dB, to -30dB using a dB method.

RSPR ER

R

RSVL O

K

V

OL 0 6 413

RSVL ER

R

12) GPR: Used to obtain a parameter using a dB method.

13) GVL: Used to obtain a parameter using a curve table method.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

GPR 0 [index] GPR OK GPR ERR

PRM 0 [index] [parameter value]

GVL 0 [index] GVL OK GVL ERR

VOL 0 [index] [level value]

The command names stand for "Get Parameter" and "Get Volume" respectively.

ACK when it fails in decreasing a parameter of an index of 6, which is originally at -20dB, by 10 steps using a

curve table method (10dB at the maximum).

A value returned in the second line is the changed value (absolute quantity). Even a relative setting will not return the

quantity changed.

ACK when it succeeds in decreasing a parameter of an index of 6, which is originally at -20dB, by 10 steps in a

curve table method (10dB at the maximum).

ACK when it succeeds in changing a parameter of an index of of 6 to -30dB using a curve table method (10 dB at

the maximum).

ACK when it fails in changing a parameter of an index of of 6 to -30dB using a curve table method (10 dB at the

maximum).

DME Remote Control Protocol Specifications V3.1 8

- The first option will always take "0." It is reserved for future extensions to the command.

- [index] will have an appropriate number converted to a character string.

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To obtain a parameter of an index of 5 using a dB method.

GPR 0 5

To obtain a parameter of an index of 6 using a curve table method.

GVL 0 6

- The DME will return two lines of character strings if it succeeds.

The first line will have a character string: "GPR OK" or "GVL OK".

For details on the character strings "PRM" and "VOL" in the second line, see chapter 3.2.1.

The first line can be ignored; check the second line to find the parameter value for a controller.

- The DME will return a one-line character string of either "GPR ERR" or "GVL ERR" if it fails.

E.g.) ACK when a parameter of an index of 5 is obtained using a dB method and -30dB is returned.

GPR OK

PRM 0 5 -3000

ACK when it fails in obtaining a parameter of an index of 5 using a dB method

GPR ER

R

GVL OK

V

OL 0 6 323

ACK when it fails in obtaining a parameter of an index of 6 using a curve table method (10dB at the maximum).

GVL ER

R

3.3.2 Scene Control Command

14) RSC: Used to recall a scene.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

RSC 0 [scene number] RSC OK RSC ER

R

SCN 0 [scene number]

The command name stands for "Recall Scene".

- The first option will always take "0." It is reserved for future extensions to the command.

- [scene number] will have an appropriate number converted to a character string.

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To recall Scene 4:

RSC 0 4

- The DME will return two lines of character strings if it succeeds.

The first line will have a character string, "RSC OK".

For details on the character string "SCN" in the second line, see chapter 3.2.1.

The first line can be ignored; check the second line to find if a scene is recalled for a controller.

- The DME will return a one-line character string of "RSC ERR" if it fails.

　(The DME will return ERR if the Remote Controller sends the RSC command for an unsaved scene.)

E.g.) ACK when it succeeds in recalling Scene 4:

RSC O

K

SCN 0 4

ACK when it fails in recalling Scene 4:

RSC ER

R

ACK when a parameter of an index of 6 is obtained using a curve table method (10dB at the maximum) and -

30dB is returned.

DME Remote Control Protocol Specifications V3.1 9

15) RRSC: Used to relatively recall a scene.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

RRSC 0 [relative scene number] RRSC OK RRSC ER

R

SCN 0 [scene number]

The command name stands for "Relatively Recall Scene".

- The first option will always take "0." It is reserved for future extensions to the command.

- An appropriate number should be given by a character string to [relative scene number]. A plus sign can be omitted but not a minus

.

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To recall the next scene:

RRSC 0 1

To recall the second to last scene (two scenes prior to current one):

RRSC 0 -2

- The DME will return two lines of character strings if it succeeds.

The first line will have the character string "RRSC OK."

For details on the character string "SCN" in the second line, see chapter 3.2.1.

The first line can be ignored; check the second line to find if a scene is recalled for a controller.

A scene number after scene recall should be returned in the second line (absolute quantity).

Even relative recall will not return the quantity changed.

- The DME will return a one-line character string of "RRSC ERR" if it fails.

E.g.) ACK when the current scene is "3" and it succeeds in recalling the next scene.

RRSC O

K

SCN 0 4

ACK when the current scene is "3" and it fails in recalling the next scene.

RRSC ER

R

16) GCS: Used to obtain a current scene number.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

GCS 0 GCS OK GCS ERR

CSN 0 [scene number]

The command name stands for "Get Current Scene".

This command will enable the user to obtain a scene number currently being recalled for the DME using the controller.

- The option will always take "0." It is reserved for future extensions to the command.

- One or more spaces will be needed between the command and the option.

E.g.) To obtain a current scene number:

GCS 0

- The DME will return two lines of character strings if it succeeds.

The first line will have a character string, "GCS OK".

The scene number 0 indicates that a scene has not been recalled (no current scene).

The first character string can be ignored for the controller.

- The DME will return a one-line character string of "GCS ERR" if it fails.

E.g.) ACK when it returns Scene 4 by obtaining a current scene number.

GCS OK

CSN 0 4 (The character string stands for "Current Scene Number".)

ACK when "no scene" is returned by obtaining a current scene number:

GCS OK

CSN 0 0

ACK when it fails in obtaining a current scene number.

GCS ER

R

The second line will have a character string, "SCN [scene number]", and ｔhe [scene number] takes either a scene

number from 1 to 999 or number 0.

This command will perform relative scene recall. For example, it will enable the user to recall "the next scene" and "the

second to last scene".

DME Remote Control Protocol Specifications V3.1 10

17) GSN: Used to obtain a scene name.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

GSN 0 [scene number] GSN OK GSN ERR

SNM 0 [scene number] [a scene name]

The command name stands for "Get Scene Name."

This command will enable the user to obtain a DME scene name of a specified number from the controller.

- The first option will always take "0." It is reserved for future extensions to the command.

- [scene number] will have an appropriate number converted to a character string.

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To obtain Scene 4 name:

GSN 0 4

- The DME will return two lines of character strings if it succeeds.

The first line will have the character string "GSN OK."

The first character string can be ignored for the controller.

A scene name that is blank looks as a scene name is not returned.

- The DME will return one line of a character string; "GSN ERR" if it fails.

E.g.) ACK when a character string, "Scene 004" is returned by obtaining a name of Scene 4.

GSN OK

SNM 4 Scene 004 (The character string stands for "Scene NaMe".)

ACK when a character string, " " is returned by obtaining a name of Scene 4.

GSN OK

SNM 4

ACK when it fails in obtaining a name of Scene 4.

GSN ER

R

3.3.3 Command to Obtain Level Mete

r

18) GMT: Used to obtain a level meter position.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

GMT 0 [index] [a meter value] GMT OK GMT ERR

MTR 0 [index] CUR [CH1] … HOLD [CH1] …

The command name stands for "Get Meter."

CUR stands for "Current meter value".

HOLD stands for "Peak hold value".

This command will enable the user to obtain a DME meter value.

- The first option will always take "0." It is reserved for future extensions to the command.

- [index] will have an appropriate number converted to a character string.

- The meter number to be obtained should be assigned to [a meter number].

A value of "1" or greater should be assigned to a meter number to obtain specific meter data.

See "DME Communication Protocol Specifications" for the meter numbers for each component.

A value of "0" should be assigned to obtain meter data for every channel.

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To obtain a level meter for a specific channel (index 1, parameter number 3)

GMT 0 1 3

E.g.) To obtain a level meter for every channel (index 1, parameter number 0)

GMT 0 1 0

- The DME will return two lines of character strings if it succeeds.

The first line will have a character string of "GMT OK."

The second line will have a character string of "MTR [index] CUR [CH1] [CH2] … HOLD [CH1] [CH2] … ".

The first character string can be ignored for the controller.

The same number of current meter levels as that of channels comes after CUR in the second line.

The same number of current meter hold levels as that of channels comes after HOLD in the second line.

The meter and hold level number ranges from -13801 to 1.

The following table shows the relationship between character strings and levels sent from the DME.

The second line will have a scene number from 1 to 999 for the [scene number] and a new name for the [a scene

name] by a character string.

DME Remote Control Protocol Specifications V3.1 11

To detect if an input level to the Audio Detector exceeds the threshold

- The DME will return the one-line character string "GMT ERR" if it fails.

E.g.) ACK when it succeeds in obtaining a meter of an index of 5 (four channels) (The numbers below are examples)

GMT OK

MTR 0 5 CUR -13801 -2000 -3000 -13801 HOLD -13801 -1500 -2800 -13801

(The character string stands for "MeTeR".)

ACK when it succeeds in obtaining a meter of an index of 5 (eight channels) (The numbers below are examples)

GMT OK

MTR 0 5 CUR -1800 -2300 -200 1 -300 0 -13801 -13801 HOLD -1500 -2000 -0 1 -200 1 -13801 -13801

ACK when it fails in obtaining a meter of an index of 5 (four channels)

GMT ERR

19) GCMT: Used to set cyclical obtaining of a level meter.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

GCMT 0 [index] [a meter value]　GCMT OK GCMT ERR

MTR 0 [index] CUR [CH1] … HOLD [CH1] …

The command name stands for "Get Cyclic Meter".

CUR stands for "Current meter value".

HOLD stands for "Peak hold value".

Registering a meter number to be obtained using this command will send the level meter value cyclically from the DME.

The level meter value will be sent until it is cancelled with a QCMT command described later. Up to 100 meters can be registered.

- The first option will always take "0." It is reserved for future extensions to the command.

- The same as [index] GMT.

- The same as [a meter number] GMT.

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To register cyclical obtaining of a level meter for a specific channel (index 1, parameter number 3)

GCMT 0 1 3

E.g.) To register cyclical obtaining of a level meter for every channel (index 1, parameter number 0)

GCMT 0 1 0

- The DME will return two lines of character strings if it succeeds.

The first line will have a character string of "GCMT OK."

The second line will have the same character string as ACK when obtaining a meter using GMT.

- The DME will return a one-line character string of "GCMT ERR" if it fails.

E.g.) An example of the DME transmit and receive data when assigning a specific channel (index: 1, meter number: 3)

GCMT 0 1 3

MTR 0 1 CUR -1800 HOLD 0

：(Remote Controller will receive meter data cyclically from the DME.

)

MTR 0 1 CUR -1700 HOLD 0

E.g.) An example of transmit and receive data when assigning all channels (index 1, meter number: 0)

GCMT 0 1 0

MTR 0 1 CUR -1800 -2300 -200 1 -300 0 -13801 -13801 HOLD 0 0 0 0 0 10

：(Remote Controller will receive meter data cyclically from the DME.

)

MTR 0 1 CUR -1800 -2300 -200 1 -300 0 -13801 -13801 HOLD 0 0 0 0 0 10

-6000

-4000

-2000

1

0

-13801

-13800

-10000

-8000

-40dB

-20dB

0dB

Over

-60dB

-Inf

-138dB

-100dB

-80dB

C

haracter string

s

Level

If an input level to the Audio Detector exceeds the threshold, the meter level becomes "Over," which

is different from conventional meter operation. Obtaining the character string "MTR 0 1 0 CUR 1

HOLD 1" indicates that the input level exceeds the threshold.

DME Remote Control Protocol Specifications V3.1 12

20) QCMT: Used to stop cyclical obtaining of a level meter.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

QCMT 0 [index] [a meter value]　QCMT OK QCMT ERR

The command name stands for "Quit Cyclic Meter".

It will be used to cancel cyclic transmission of a level meter registered in the DME with the GCMT command.

- The first option will always take "0." It is reserved for future extensions to the command.

- [index] will have an appropriate number assigned with the DME Designer by a character string.

- "0" should be always assigned to [a meter number].

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To discard registration of an obtained meter cycle:

QCMT 0 1 0

The DME will return a one-line character string of "QCMT OK" if it succeeds.

The DME will return a one-line character string of "QCMT ERR" if it fails.

E.g.) ACK when it succeeds in discarding meter number registration.

QCMT OK

ACK when it fails in discarding meter number registration.

QCMT ERR

21) SMC: Used to set the cyclical period for automatically obtaining all level meters.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

SMC 0 [a cycle] SMC OK SMC ERR

The command name stands for "Set Meter Cycle".

This command will enable the user to set a cycle in ms units for sending all level meters set to be obtained cyclically.

The DME will send level meters at 100 msec intervals if the DME has not received this command.

- The first option will always take "0." It is reserved for future extensions to the command.

- The meter transmission interval from the DME should be assigned to [a cycle] in ms units.

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To change the meter transmission interval from the DME to 200msec:

SMC　0 200

- The DME will return a one-line character string of "SMC OK" if it succeeds.

- The DME will return a one-line character string of "SMC ERR" if it fails.

E.g.) ACK when it succeeds in changing the meter transmission interval:

SMC OK

ACK when it fails in changing the meter transmission interval:

SMC ER

R

Guide for setting the cycle

An appropriate cycle needs to be set in accordance with the number of the level meters to be obtained cyclically.

Follow the table below to find an appropriate cycle.

A table of the number of the level meters and the required time to be obtained

The sum of "Required time to be obtained" in the table above for each command will be the guide for setting an appropriate cycle.

The cycle to automatically obtain a level meter, however, should be set to at least at 50 msec, since too short of a cycle will

increase the load of the communication line.

Required time

to be obtained

Number of level meters to be

obtained by a single command

239ms

122ms

9ms

64

32

1

64ms

34ms

20ms

12ms

16

8

4

2

DME Remote Control Protocol Specifications V3.1 13

Estimation of the cycle:

Example 1: To obtain 1 ch level meter of 16ch Fader component,

A required cycle for obtaining 1 level meter is 9 ms according to the table above.

However, since the minimum cycle must be at least 50 ms, set the cycle to 50 ms.

Example 2: To obtain 1 component (16 ch) level meters of 16ch Fader component,

A required cycle for obtaining 16 level meters is 64 ms according to the table above.

Set the cycle to 64 ms.

Example 3: To obtain 2 component (32 ch) level meters of 16ch Fader component,

A required cycle for obtaining 16 level meters is 64 ms according to the table above.

Set the cycle to 128 ms by multiplying 64 ms by 2 component cycles

.

3.3.4 Mute Control Command

22) SMUT: Used to set/cancel the mute function.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

SMUT 0 [ON/OFF] SMUT OK SMUT ERR

MUTE 0 [ON/OFF]

The command name stands for "Set Mute".

- The first option will always take "0." It is reserved for future extensions to the command.

- The second option will have a character string of either "ON" or "OFF."

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To turn on the mute function:

SMUT 0 ON

- The DME will return two lines of character strings if it succeeds.

The first line will have a character string of "SMUT OK."

The first character string can be ignored for the controller.

- The DME will return a character string of "SMUT ERR" if it fails.

E.g.) ACK when it succeeds in switching the mute function on:

SMUT OK

MUTE 0 ON

ACK when it fails in switching the mute function on:

SMUT ER

R

23) GMUT: Used to obtain the mute condition.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

GMUT 0 GMUT OK GMUT ERR

MUTE 0 [ON/OFF]

The command name stands for "Get Mute."

This command only applies to DME firmware V3.11 or later.

- The option will always take "0." It is reserved for future extensions to the command.

- One or more spaces will be needed between the command and the option.

E.g.) To obtain the mute condition:

GMUT 0

- The DME will return two lines of character strings if it succeeds.

The first line will have a character string, "GMUT OK."

The first character string can be ignored for the controller.

- The DME will return a one-line character string of "GMUT ERR" if it fails.

E.g.) ACK when it succeeds in obtaining the mute condition and the mute condition is ON:

GMUT OK

MUTE 0 ON

ACK when it fails in obtaining the mute condition:

GMUT ERR

The second line will have the same character string as that output to the controller from the DME when Mute ON/OFF

is switched.

The second line will have the same character string as that output to the controller from the DME when Mute ON/OFF

is switched.

DME Remote Control Protocol Specifications V3.1 14

3.3.5 GPI Control Command

24) SGO: Used to control GPI OUT.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

SGO 0 [Port number] [ON/OFF] … SGO OK SGO ERR

The command name stands for "Set Gpi Out".

- The first option will always take "0." It is reserved for future extensions to the command.

- The second option will have a port number by a character string.

- The third option will have a character string of either "ON" or "OFF."

- One or more spaces are needed between the command and the option, and between the options.

- Multiple GPI outputs can be controlled by adding another option.

- SGO command changes GPI OUT port status without affecting any parameters in DME components.

E.g.) To set port 3 on:

SGO 0 3 ON

To set port 10 on, port 11 off:

SGO 0 10 ON 11 OFF

To set port 1 on, port 3 off, port 4 on and port 5 on:

SGO 0 1 ON 3 OFF 4 ON 5 ON

- The DME will return a one-line character string of "SGO OK" if it succeeds.

- The DME will return a one-line character string of "SGO ERR" if it fails.

E.g.) ACK when it succeeds in setting GPI port 3 on:

SGO OK

ACK when it fails in setting GPI port 3 on:

SGO ERR

3.3.6 WAV FILE PLAYER Control Command

25) PWF: Used to play back a file.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

PWF 0 [An index to Wav File Manager] PWF OK PWF ERR

The command name stands for "Play Wav File".

This command will enable the user to play back a specified song in the DME's WAV File Player.

A file should be registered in WAV File Manager in advance to play the song.

- The first option will always take "0." It is reserved for future extensions to the command.

- The second option will have an index to Wav File Manager by a character string.

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To play back a WAV file registered in Wav File Manager 4:

PWF 0 4

- The DME will return a one-line character string of "PWF OK" if it succeeds.

- The DME will return a one-line character string of "PWF ERR" if it fails.

E.g.) ACK when it succeeds in playing back a WAV file registered in Wav File Manager 4:

PWF OK

ACK when it fails in playing back a WAV file registered in Wav File Manager 4:

PWF ER

R

DME Remote Control Protocol Specifications V3.1 15

26) SWF: Used to stop playback of a file.

Option The DME's ACKs when it succeeds The DME's ACKs when it fails

SWF 0 SWF OK SWF ERR

The command name stands for "Stop Wav File."

This command only applies to DME firmware V3.11 or later.

This command will enable the user to stop playback of a song in the DME's WAV File Player.

- The option will always take "0." It is reserved for future extensions to the command.

- One or more spaces are needed between the command and the option.

E.g.) To stop playback of a WAV file

SWF 0

- The DME will return a one-line character string of "SWF OK" if it succeeds.

- The DME will return a one-line character string of "SWF ERR" if it fails.

E.g.) ACK when it succeeds in stopping playback of a WAV file:

SWF OK

ACK when it fails in stopping playback of a WAV file:

SWF ER

R

3.4 Utility Command

3.4.1 Command for Debug

27) ECHO: Used to set/cancel Echo Back.

Command Option The DME's ACKs when it succeeds The DME's ACKs when it fails

ECHO 0 [ON/OFF] ECHO OK ECHO ERR

A character string received by the DME can be echoed back to debug the controller.

Switching the Echo function on will cause a character string to be echoed back until the Echo function or the DME is switched off.

The default is OFF.

It may be controlled normally while it is echoed back.

- The first option will always take "0." It is reserved for future extensions to the command.

- [ON/OFF] will have a character string of either "ON" or "OFF."

- One or more spaces are needed between the command and the option, and between the options.

E.g.) To switch the DME Echo on:

ECHO 0 ON

To switch the DME Echo off:

ECHO 0 OFF

A character string of "ECHO OK" will be output to the controller when it succeeds, or "ECHO ERR" when it fails.

DME Remote Control Protocol Specifications V3.1 16

4. Command Sequence

The following are examples of the main command sequence.

A parameter change (executed by Remote Controller)

A parameter set command

DME

SPR 0 1 0 (setting parameter 1 to 0)

Remote Controller SPR OK (ACK from the DME)

PRM 0 1 0 (parameter 1 is set to 0)

A parameter change (executed by other than Remote Controller)

DME

A parameter set command

Remote Controller PRM 0 1 0 (parameter 1 is set to 0)

Obtaining a parameter

DME

GPR 0 1 (obtaining parameter 1)

Remote Controller GPR OK (ACK from the DME)

PRM 0 1 0 (current value for parameter 1 is 0)

Scene recall (executed by Remote Controller)

DME

RSC 0 1 (recalling scene 1)

Remote Controller RSC OK (ACK from the DME)

SCN 0 1 (scene 1 is recalled)

Scene recall (executed by other than Remote Controller)

DME

Remote Controller SCN 0 1 (scene 1 is recalled)

Obtaining current scene information

DME

GCS (obtaining the current scene number)

Remote Controller GCS OK (ACK from the DME)

CSN 0 1 ("1" is the current scene)

Command to obtain a level meter

DME

GMT 0 1

(obtaining a meter registered in "1")

Remote Controller GMT OK (ACK from the DME)

MTR 0 1 -100 -500 -200 …

(meter registered in "1" is obtained)

DME Remote Control Protocol Specifications V3.1 17

Re

g

istration to obtain level meter c

y

cle

DME

SMC 0 500

(

settin

g

the c

y

cle for obtainin

g

the meter to 500 msec

)

SMC OK

GCMT 0 1 0

(

c

y

clicall

y

obtainin

g

ever

y

meter re

g

istered in "1"

)

GCMT OK

MTR 0 1 CUR -100 -500 -200 …

Remote Controller

(

obtainin

g

a meter re

g

istered in "1"

)

500msec

MTR 0 1 CUR -100 -500 -200 …

(

obtainin

g

a meter re

g

istered in "1"

)

：

：

：

QCMT 0 1 0

(

sto

pp

in

g

the c

y

clical

p

rocess of obtainin

g

a com

p

onent meter re

g

istered in "1"

)

QCMT OK

Mute Control

DME

SMUT 0 ON

(turning mute on)

Remote Controller SMUT OK

MUTE 0 ON

(notifying that the mute function is turned on)

Obtaining mute condition

DME

GMUT 0

（obtainin

g

mute condition）

Remote Controller GMUT OK

MUTE 0 ON

（notif

y

in

g

that the mute condition is on

)

GPI OUT Control

DME

SGO 0 1 ON 2 OFF 3 ON

(turning GPI OUT CH1 on, CH2 off and CH3 on)

SGO OK

Pla

y

in

g

Back WAV file

DME

PWF 0 1

(playing back a file registered in WAV File Manager 1)

PWF OK

Stopping playback of a WAV file

DME

SWF 0

(stopping playback of a WAV file)

SWF OK

Remote Controller

Remote Controller

Remote Controller

DME Remote Control Protocol Specifications V3.1 18

Troubleshooting (FAQ)

Q:

A: No, it is not possible. Be sure to set the baud rate of the remote controller to 38400bps.

For more information, see the section "1.2 Remote Controller Settings."

Q: What should be used as a line feed code of a command?

A: LF (0x0A) can be used as a line feed code ("$0A" for AMX, "\x0A" for Crestron).

For more information, see the section "3.1 Basic Command Specifications."

Q: Up to how many parameters can be controlled with the communication protocol?

A: The maximum number of specifically defined controllable parameters is 256, as set in the Remote Control Setup List of DME Designer.

Other controls such as scene recall are in addition to this.

Q: How can I control more than 256 types of parameters?

A: You can use MIDI and/or GPI signals in addition to the remote control protocol.

Q: Can the MIDI parameter change and/or control change be transmitted via Ethernet?

A: No, the MIDI parameter change and/or control change cannot be transmitted via Ethernet.

The SPR command can be used to change parameters. The RSC command can be used to recall a scene.

Q: Can the DME receive the parameter setting command SPR in the middle of scene recall processing?

A:

Q: Is there any difference in response time for parameter changing, depending on the type of component?

A:

Q: If the response speed of the DME to a command is slow, what are the possible causes and solutions?

A:

Q: If the response speed of the meter is slow, what are the possible causes and solutions?

A: The response speed of the meter will be slow when the number of meters displayed on the screen increases.

In this case, try the following solutions.

For more information on commands see GMT and GCMT in the section "3.3.3 Command to Obtain Level Meter."

Q: If a parameter is assigned to "GPI OUT" and the port is controlled by the SGO command, does the parameter link?

A: No, the parameter does not link.

Onl

y

the GPI out

p

ut from a

p

ort s

p

ecified b

y

the SGO command is controlled.

Q: Can the input level to the Audio Detector be detected if it exceeds the threshold?

A: Yes it can.

For more information on detecting the level see the section "3.3.3 Command to Obtain Level Meter."

In this case, make sure that the transmission interval between the commands for the remote controller is long enough for optimum

processing.

Is it possible to communicate with the DME at a baud rate other than 38400bps for serial communication via the REMOTE

connector?

The parameter setting command can be transmitted after checking the SCN command notified from the DME when scene recalls

are complete.

A component (such as Matrix Mixer 64x64) with various parameters may require longer time for parameter change than a

component with a small number of parameters.

When a large number of commands are transmitted to the DME in a short time, processing time may be longer because data is

accumulated in the receive buffer.

No, the command is disabled during recall. All the commands transmitted to the DME in the middle of scene recall processing will be

ignored. When scene recalls are complete, the DME will restart receiving the SPR command.

・If the cyclical period for automatically obtaining a meter is too short, the response speed will be slow due to the accumulation o

f

data. Try to set a cycle as long as possible using the SMC command.

・The response speed will be faster by using the GCMT command that can obtain data cyclically than by using the GMT comman

d

that obtains data each time, because the volume of communication decreases.

・If you want to display multiple meters in the same component, you can ensure a faster response speed by assigning a value of "0

"

to a meter number to obtain data all at once, rather than by assigning a meter number to obtain data individually.

・If you want to display a meter in the Meter component, you can ensure a faster response speed by assigning the multiple-channe

l

Meter component, rather than by assigning multiple one-channel Meter components.

DME Remote Control Protocol Specifications V3.1 19

Appendix

A Fader Table of -∞ to 0 dB

Value Data Value Data Value Data Value Data Value Data Value Data Value Data Value Data

0 -InfdB 64 -87.50dB 128 -69.00dB 192 -56.20dB 256 -46.70dB 320 -40.30dB 384 -33.90dB 448 -28.75dB

1 -138.00dB 65 -87.00dB 129 -68.80dB 193 -56.00dB 257 -46.60dB 321 -40.20dB 385 -33.80dB 449 -28.70dB

2 -136.00dB 66 -86.50dB 130 -68.60dB 194 -55.80dB 258 -46.50dB 322 -40.10dB 386 -33.70dB 450 -28.65dB

3 -134.00dB 67 -86.00dB 131 -68.40dB 195 -55.60dB 259 -46.40dB 323 -40.00dB 387 -33.60dB 451 -28.60dB

4 -133.00dB 68 -85.50dB 132 -68.20dB 196 -55.40dB 260 -46.30dB 324 -39.90dB 388 -33.50dB 452 -28.55dB

5 -132.00dB 69 -85.00dB 133 -68.00dB 197 -55.20dB 261 -46.20dB 325 -39.80dB 389 -33.40dB 453 -28.50dB

6 -131.00dB 70 -84.50dB 134 -67.80dB 198 -55.00dB 262 -46.10dB 326 -39.70dB 390 -33.30dB 454 -28.45dB

7 -130.00dB 71 -84.00dB 135 -67.60dB 199 -54.80dB 263 -46.00dB 327 -39.60dB 391 -33.20dB 455 -28.40dB

8 -129.00dB 72 -83.50dB 136 -67.40dB 200 -54.60dB 264 -45.90dB 328 -39.50dB 392 -33.10dB 456 -28.35dB

9 -128.00dB 73 -83.00dB 137 -67.20dB 201 -54.40dB 265 -45.80dB 329 -39.40dB 393 -33.00dB 457 -28.30dB

10 -127.00dB 74 -82.50dB 138 -67.00dB 202 -54.20dB 266 -45.70dB 330 -39.30dB 394 -32.90dB 458 -28.25dB

11 -126.00dB 75 -82.00dB 139 -66.80dB 203 -54.00dB 267 -45.60dB 331 -39.20dB 395 -32.80dB 459 -28.20dB

12 -125.00dB 76 -81.50dB 140 -66.60dB 204 -53.80dB 268 -45.50dB 332 -39.10dB 396 -32.70dB 460 -28.15dB

13 -124.00dB 77 -81.00dB 141 -66.40dB 205 -53.60dB 269 -45.40dB 333 -39.00dB 397 -32.60dB 461 -28.10dB

14 -123.00dB 78 -80.50dB 142 -66.20dB 206 -53.40dB 270 -45.30dB 334 -38.90dB 398 -32.50dB 462 -28.05dB

15 -122.00dB 79 -80.00dB 143 -66.00dB 207 -53.20dB 271 -45.20dB 335 -38.80dB 399 -32.40dB 463 -28.00dB

16 -121.00dB 80 -79.50dB 144 -65.80dB 208 -53.00dB 272 -45.10dB 336 -38.70dB 400 -32.30dB 464 -27.95dB

17 -120.00dB 81 -79.00dB 145 -65.60dB 209 -52.80dB 273 -45.00dB 337 -38.60dB 401 -32.20dB 465 -27.90dB

18 -119.00dB 82 -78.50dB 146 -65.40dB 210 -52.60dB 274 -44.90dB 338 -38.50dB 402 -32.10dB 466 -27.85dB

19 -118.00dB 83 -78.00dB 147 -65.20dB 211 -52.40dB 275 -44.80dB 339 -38.40dB 403 -32.00dB 467 -27.80dB

20 -117.00dB 84 -77.80dB 148 -65.00dB 212 -52.20dB 276 -44.70dB 340 -38.30dB 404 -31.90dB 468 -27.75dB

21 -116.00dB 85 -77.60dB 149 -64.80dB 213 -52.00dB 277 -44.60dB 341 -38.20dB 405 -31.80dB 469 -27.70dB

22 -115.00dB 86 -77.40dB 150 -64.60dB 214 -51.80dB 278 -44.50dB 342 -38.10dB 406 -31.70dB 470 -27.65dB

23 -114.00dB 87 -77.20dB 151 -64.40dB 215 -51.60dB 279 -44.40dB 343 -38.00dB 407 -31.60dB 471 -27.60dB

24 -113.00dB 88 -77.00dB 152 -64.20dB 216 -51.40dB 280 -44.30dB 344 -37.90dB 408 -31.50dB 472 -27.55dB

25 -112.00dB 89 -76.80dB 153 -64.00dB 217 -51.20dB 281 -44.20dB 345 -37.80dB 409 -31.40dB 473 -27.50dB

26 -111.00dB 90 -76.60dB 154 -63.80dB 218 -51.00dB 282 -44.10dB 346 -37.70dB 410 -31.30dB 474 -27.45dB

27 -110.00dB 91 -76.40dB 155 -63.60dB 219 -50.80dB 283 -44.00dB 347 -37.60dB 411 -31.20dB 475 -27.40dB

28 -109.00dB 92 -76.20dB 156 -63.40dB 220 -50.60dB 284 -43.90dB 348 -37.50dB 412 -31.10dB 476 -27.35dB

29 -108.00dB 93 -76.00dB 157 -63.20dB 221 -50.40dB 285 -43.80dB 349 -37.40dB 413 -31.00dB 477 -27.30dB

30 -107.00dB 94 -75.80dB 158 -63.00dB 222 -50.20dB 286 -43.70dB 350 -37.30dB 414 -30.90dB 478 -27.25dB

31 -106.00dB 95 -75.60dB 159 -62.80dB 223 -50.00dB 287 -43.60dB 351 -37.20dB 415 -30.80dB 479 -27.20dB

32 -105.00dB 96 -75.40dB 160 -62.60dB 224 -49.90dB 288 -43.50dB 352 -37.10dB 416 -30.70dB 480 -27.15dB

33 -104.00dB 97 -75.20dB 161 -62.40dB 225 -49.80dB 289 -43.40dB 353 -37.00dB 417 -30.60dB 481 -27.10dB

34 -103.00dB 98 -75.00dB 162 -62.20dB 226 -49.70dB 290 -43.30dB 354 -36.90dB 418 -30.50dB 482 -27.05dB

35 -102.00dB 99 -74.80dB 163 -62.00dB 227 -49.60dB 291 -43.20dB 355 -36.80dB 419 -30.40dB 483 -27.00dB

36 -101.50dB 100 -74.60dB 164 -61.80dB 228 -49.50dB 292 -43.10dB 356 -36.70dB 420 -30.30dB 484 -26.95dB

37 -101.00dB 101 -74.40dB 165 -61.60dB 229 -49.40dB 293 -43.00dB 357 -36.60dB 421 -30.20dB 485 -26.90dB

38 -100.50dB 102 -74.20dB 166 -61.40dB 230 -49.30dB 294 -42.90dB 358 -36.50dB 422 -30.10dB 486 -26.85dB

39 -100.00dB 103 -74.00dB 167 -61.20dB 231 -49.20dB 295 -42.80dB 359 -36.40dB 423 -30.00dB 487 -26.80dB

40 -99.50dB 104 -73.80dB 168 -61.00dB 232 -49.10dB 296 -42.70dB 360 -36.30dB 424 -29.95dB 488 -26.75dB

41 -99.00dB 105 -73.60dB 169 -60.80dB 233 -49.00dB 297 -42.60dB 361 -36.20dB 425 -29.90dB 489 -26.70dB

42 -98.50dB 106 -73.40dB 170 -60.60dB 234 -48.90dB 298 -42.50dB 362 -36.10dB 426 -29.85dB 490 -26.65dB

43 -98.00dB 107 -73.20dB 171 -60.40dB 235 -48.80dB 299 -42.40dB 363 -36.00dB 427 -29.80dB 491 -26.60dB

44 -97.50dB 108 -73.00dB 172 -60.20dB 236 -48.70dB 300 -42.30dB 364 -35.90dB 428 -29.75dB 492 -26.55dB

45 -97.00dB 109 -72.80dB 173 -60.00dB 237 -48.60dB 301 -42.20dB 365 -35.80dB 429 -29.70dB 493 -26.50dB

46 -96.50dB 110 -72.60dB 174 -59.80dB 238 -48.50dB 302 -42.10dB 366 -35.70dB 430 -29.65dB 494 -26.45dB

47 -96.00dB 111 -72.40dB 175 -59.60dB 239 -48.40dB 303 -42.00dB 367 -35.60dB 431 -29.60dB 495 -26.40dB

48 -95.50dB 112 -72.20dB 176 -59.40dB 240 -48.30dB 304 -41.90dB 368 -35.50dB 432 -29.55dB 496 -26.35dB

49 -95.00dB 113 -72.00dB 177 -59.20dB 241 -48.20dB 305 -41.80dB 369 -35.40dB 433 -29.50dB 497 -26.30dB

50 -94.50dB 114 -71.80dB 178 -59.00dB 242 -48.10dB 306 -41.70dB 370 -35.30dB 434 -29.45dB 498 -26.25dB

51 -94.00dB 115 -71.60dB 179 -58.80dB 243 -48.00dB 307 -41.60dB 371 -35.20dB 435 -29.40dB 499 -26.20dB

52 -93.50dB 116 -71.40dB 180 -58.60dB 244 -47.90dB 308 -41.50dB 372 -35.10dB 436 -29.35dB 500 -26.15dB

53 -93.00dB 117 -71.20dB 181 -58.40dB 245 -47.80dB 309 -41.40dB 373 -35.00dB 437 -29.30dB 501 -26.10dB

54 -92.50dB 118 -71.00dB 182 -58.20dB 246 -47.70dB 310 -41.30dB 374 -34.90dB 438 -29.25dB 502 -26.05dB

55 -92.00dB 119 -70.80dB 183 -58.00dB 247 -47.60dB 311 -41.20dB 375 -34.80dB 439 -29.20dB 503 -26.00dB

56 -91.50dB 120 -70.60dB 184 -57.80dB 248 -47.50dB 312 -41.10dB 376 -34.70dB 440 -29.15dB 504 -25.95dB

57 -91.00dB 121 -70.40dB 185 -57.60dB 249 -47.40dB 313 -41.00dB 377 -34.60dB 441 -29.10dB 505 -25.90dB

58 -90.50dB 122 -70.20dB 186 -57.40dB 250 -47.30dB 314 -40.90dB 378 -34.50dB 442 -29.05dB 506 -25.85dB

59 -90.00dB 123 -70.00dB 187 -57.20dB 251 -47.20dB 315 -40.80dB 379 -34.40dB 443 -29.00dB 507 -25.80dB

60 -89.50dB 124 -69.80dB 188 -57.00dB 252 -47.10dB 316 -40.70dB 380 -34.30dB 444 -28.95dB 508 -25.75dB

61 -89.00dB 125 -69.60dB 189 -56.80dB 253 -47.00dB 317 -40.60dB 381 -34.20dB 445 -28.90dB 509 -25.70dB

62 -88.50dB 126 -69.40dB 190 -56.60dB 254 -46.90dB 318 -40.50dB 382 -34.10dB 446 -28.85dB 510 -25.65dB

63 -88.00dB 127 -69.20dB 191 -56.40dB 255 -46.80dB 319 -40.40dB 383 -34.00dB 447 -28.80dB 511 -25.60dB

DME Remote Control Protocol Specifications V3.1 20

Value Data Value Data Value Data Value Data Value Data Value Data Value Data Value Data

512 -25.55dB 576 -22.35dB 640 -19.15dB 704 -15.95dB 768 -12.75dB 832 -9.55dB 896 -6.35dB 960 -3.15dB

513 -25.50dB 577 -22.30dB 641 -19.10dB 705 -15.90dB 769 -12.70dB 833 -9.50dB 897 -6.30dB 961 -3.10dB

514 -25.45dB 578 -22.25dB 642 -19.05dB 706 -15.85dB 770 -12.65dB 834 -9.45dB 898 -6.25dB 962 -3.05dB

515 -25.40dB 579 -22.20dB 643 -19.00dB 707 -15.80dB 771 -12.60dB 835 -9.40dB 899 -6.20dB 963 -3.00dB

516 -25.35dB 580 -22.15dB 644 -18.95dB 708 -15.75dB 772 -12.55dB 836 -9.35dB 900 -6.15dB 964 -2.95dB

517 -25.30dB 581 -22.10dB 645 -18.90dB 709 -15.70dB 773 -12.50dB 837 -9.30dB 901 -6.10dB 965 -2.90dB

518 -25.25dB 582 -22.05dB 646 -18.85dB 710 -15.65dB 774 -12.45dB 838 -9.25dB 902 -6.05dB 966 -2.85dB

519 -25.20dB 583 -22.00dB 647 -18.80dB 711 -15.60dB 775 -12.40dB 839 -9.20dB 903 -6.00dB 967 -2.80dB

520 -25.15dB 584 -21.95dB 648 -18.75dB 712 -15.55dB 776 -12.35dB 840 -9.15dB 904 -5.95dB 968 -2.75dB

521 -25.10dB 585 -21.90dB 649 -18.70dB 713 -15.50dB 777 -12.30dB 841 -9.10dB 905 -5.90dB 969 -2.70dB

522 -25.05dB 586 -21.85dB 650 -18.65dB 714 -15.45dB 778 -12.25dB 842 -9.05dB 906 -5.85dB 970 -2.65dB

523 -25.00dB 587 -21.80dB 651 -18.60dB 715 -15.40dB 779 -12.20dB 843 -9.00dB 907 -5.80dB 971 -2.60dB

524 -24.95dB 588 -21.75dB 652 -18.55dB 716 -15.35dB 780 -12.15dB 844 -8.95dB 908 -5.75dB 972 -2.55dB

525 -24.90dB 589 -21.70dB 653 -18.50dB 717 -15.30dB 781 -12.10dB 845 -8.90dB 909 -5.70dB 973 -2.50dB

526 -24.85dB 590 -21.65dB 654 -18.45dB 718 -15.25dB 782 -12.05dB 846 -8.85dB 910 -5.65dB 974 -2.45dB

527 -24.80dB 591 -21.60dB 655 -18.40dB 719 -15.20dB 783 -12.00dB 847 -8.80dB 911 -5.60dB 975 -2.40dB

528 -24.75dB 592 -21.55dB 656 -18.35dB 720 -15.15dB 784 -11.95dB 848 -8.75dB 912 -5.55dB 976 -2.35dB

529 -24.70dB 593 -21.50dB 657 -18.30dB 721 -15.10dB 785 -11.90dB 849 -8.70dB 913 -5.50dB 977 -2.30dB

530 -24.65dB 594 -21.45dB 658 -18.25dB 722 -15.05dB 786 -11.85dB 850 -8.65dB 914 -5.45dB 978 -2.25dB

531 -24.60dB 595 -21.40dB 659 -18.20dB 723 -15.00dB 787 -11.80dB 851 -8.60dB 915 -5.40dB 979 -2.20dB

532 -24.55dB 596 -21.35dB 660 -18.15dB 724 -14.95dB 788 -11.75dB 852 -8.55dB 916 -5.35dB 980 -2.15dB

533 -24.50dB 597 -21.30dB 661 -18.10dB 725 -14.90dB 789 -11.70dB 853 -8.50dB 917 -5.30dB 981 -2.10dB

534 -24.45dB 598 -21.25dB 662 -18.05dB 726 -14.85dB 790 -11.65dB 854 -8.45dB 918 -5.25dB 982 -2.05dB

535 -24.40dB 599 -21.20dB 663 -18.00dB 727 -14.80dB 791 -11.60dB 855 -8.40dB 919 -5.20dB 983 -2.00dB

536 -24.35dB 600 -21.15dB 664 -17.95dB 728 -14.75dB 792 -11.55dB 856 -8.35dB 920 -5.15dB 984 -1.95dB

537 -24.30dB 601 -21.10dB 665 -17.90dB 729 -14.70dB 793 -11.50dB 857 -8.30dB 921 -5.10dB 985 -1.90dB

538 -24.25dB 602 -21.05dB 666 -17.85dB 730 -14.65dB 794 -11.45dB 858 -8.25dB 922 -5.05dB 986 -1.85dB

539 -24.20dB 603 -21.00dB 667 -17.80dB 731 -14.60dB 795 -11.40dB 859 -8.20dB 923 -5.00dB 987 -1.80dB

540 -24.15dB 604 -20.95dB 668 -17.75dB 732 -14.55dB 796 -11.35dB 860 -8.15dB 924 -4.95dB 988 -1.75dB

541 -24.10dB 605 -20.90dB 669 -17.70dB 733 -14.50dB 797 -11.30dB 861 -8.10dB 925 -4.90dB 989 -1.70dB

542 -24.05dB 606 -20.85dB 670 -17.65dB 734 -14.45dB 798 -11.25dB 862 -8.05dB 926 -4.85dB 990 -1.65dB

543 -24.00dB 607 -20.80dB 671 -17.60dB 735 -14.40dB 799 -11.20dB 863 -8.00dB 927 -4.80dB 991 -1.60dB

544 -23.95dB 608 -20.75dB 672 -17.55dB 736 -14.35dB 800 -11.15dB 864 -7.95dB 928 -4.75dB 992 -1.55dB

545 -23.90dB 609 -20.70dB 673 -17.50dB 737 -14.30dB 801 -11.10dB 865 -7.90dB 929 -4.70dB 993 -1.50dB

546 -23.85dB 610 -20.65dB 674 -17.45dB 738 -14.25dB 802 -11.05dB 866 -7.85dB 930 -4.65dB 994 -1.45dB

547 -23.80dB 611 -20.60dB 675 -17.40dB 739 -14.20dB 803 -11.00dB 867 -7.80dB 931 -4.60dB 995 -1.40dB

548 -23.75dB 612 -20.55dB 676 -17.35dB 740 -14.15dB 804 -10.95dB 868 -7.75dB 932 -4.55dB 996 -1.35dB

549 -23.70dB 613 -20.50dB 677 -17.30dB 741 -14.10dB 805 -10.90dB 869 -7.70dB 933 -4.50dB 997 -1.30dB

550 -23.65dB 614 -20.45dB 678 -17.25dB 742 -14.05dB 806 -10.85dB 870 -7.65dB 934 -4.45dB 998 -1.25dB

551 -23.60dB 615 -20.40dB 679 -17.20dB 743 -14.00dB 807 -10.80dB 871 -7.60dB 935 -4.40dB 999 -1.20dB

552 -23.55dB 616 -20.35dB 680 -17.15dB 744 -13.95dB 808 -10.75dB 872 -7.55dB 936 -4.35dB 1000 -1.15dB

553 -23.50dB 617 -20.30dB 681 -17.10dB 745 -13.90dB 809 -10.70dB 873 -7.50dB 937 -4.30dB 1001 -1.10dB

554 -23.45dB 618 -20.25dB 682 -17.05dB 746 -13.85dB 810 -10.65dB 874 -7.45dB 938 -4.25dB 1002 -1.05dB

555 -23.40dB 619 -20.20dB 683 -17.00dB 747 -13.80dB 811 -10.60dB 875 -7.40dB 939 -4.20dB 1003 -1.00dB

556 -23.35dB 620 -20.15dB 684 -16.95dB 748 -13.75dB 812 -10.55dB 876 -7.35dB 940 -4.15dB 1004 -0.95dB

557 -23.30dB 621 -20.10dB 685 -16.90dB 749 -13.70dB 813 -10.50dB 877 -7.30dB 941 -4.10dB 1005 -0.90dB

558 -23.25dB 622 -20.05dB 686 -16.85dB 750 -13.65dB 814 -10.45dB 878 -7.25dB 942 -4.05dB 1006 -0.85dB

559 -23.20dB 623 -20.00dB 687 -16.80dB 751 -13.60dB 815 -10.40dB 879 -7.20dB 943 -4.00dB 1007 -0.80dB

560 -23.15dB 624 -19.95dB 688 -16.75dB 752 -13.55dB 816 -10.35dB 880 -7.15dB 944 -3.95dB 1008 -0.75dB

561 -23.10dB 625 -19.90dB 689 -16.70dB 753 -13.50dB 817 -10.30dB 881 -7.10dB 945 -3.90dB 1009 -0.70dB

562 -23.05dB 626 -19.85dB 690 -16.65dB 754 -13.45dB 818 -10.25dB 882 -7.05dB 946 -3.85dB 1010 -0.65dB

563 -23.00dB 627 -19.80dB 691 -16.60dB 755 -13.40dB 819 -10.20dB 883 -7.00dB 947 -3.80dB 1011 -0.60dB

564 -22.95dB 628 -19.75dB 692 -16.55dB 756 -13.35dB 820 -10.15dB 884 -6.95dB 948 -3.75dB 1012 -0.55dB

565 -22.90dB 629 -19.70dB 693 -16.50dB 757 -13.30dB 821 -10.10dB 885 -6.90dB 949 -3.70dB 1013 -0.50dB

566 -22.85dB 630 -19.65dB 694 -16.45dB 758 -13.25dB 822 -10.05dB 886 -6.85dB 950 -3.65dB 1014 -0.45dB

567 -22.80dB 631 -19.60dB 695 -16.40dB 759 -13.20dB 823 -10.00dB 887 -6.80dB 951 -3.60dB 1015 -0.40dB

568 -22.75dB 632 -19.55dB 696 -16.35dB 760 -13.15dB 824 -9.95dB 888 -6.75dB 952 -3.55dB 1016 -0.35dB

569 -22.70dB 633 -19.50dB 697 -16.30dB 761 -13.10dB 825 -9.90dB 889 -6.70dB 953 -3.50dB 1017 -0.30dB

570 -22.65dB 634 -19.45dB 698 -16.25dB 762 -13.05dB 826 -9.85dB 890 -6.65dB 954 -3.45dB 1018 -0.25dB

571 -22.60dB 635 -19.40dB 699 -16.20dB 763 -13.00dB 827 -9.80dB 891 -6.60dB 955 -3.40dB 1019 -0.20dB

572 -22.55dB 636 -19.35dB 700 -16.15dB 764 -12.95dB 828 -9.75dB 892 -6.55dB 956 -3.35dB 1020 -0.15dB

573 -22.50dB 637 -19.30dB 701 -16.10dB 765 -12.90dB 829 -9.70dB 893 -6.50dB 957 -3.30dB 1021 -0.10dB

574 -22.45dB 638 -19.25dB 702 -16.05dB 766 -12.85dB 830 -9.65dB 894 -6.45dB 958 -3.25dB 1022 -0.05dB

575 -22.40dB 639 -19.20dB 703 -16.00dB 767 -12.80dB 831 -9.60dB 895 -6.40dB 959 -3.20dB 1023 0.00dB

DME Remote Control Protocol Specifications V3.1 21

A Fader Table of -∞ to 10 dB

Value Data Value Data Value Data Value Data Value Data Value Data Value Data Value Data

0 -InfdB 64 -71.80dB 128 -59.00dB 192 -46.20dB 256 -36.70dB 320 -30.30dB 384 -23.90dB 448 -18.75dB

1 -138.00dB 65 -71.60dB 129 -58.80dB 193 -46.00dB 257 -36.60dB 321 -30.20dB 385 -23.80dB 449 -18.70dB

2 -135.00dB 66 -71.40dB 130 -58.60dB 194 -45.80dB 258 -36.50dB 322 -30.10dB 386 -23.70dB 450 -18.65dB

3 -132.00dB 67 -71.20dB 131 -58.40dB 195 -45.60dB 259 -36.40dB 323 -30.00dB 387 -23.60dB 451 -18.60dB

4 -129.00dB 68 -71.00dB 132 -58.20dB 196 -45.40dB 260 -36.30dB 324 -29.90dB 388 -23.50dB 452 -18.55dB

5 -126.00dB 69 -70.80dB 133 -58.00dB 197 -45.20dB 261 -36.20dB 325 -29.80dB 389 -23.40dB 453 -18.50dB

6 -123.00dB 70 -70.60dB 134 -57.80dB 198 -45.00dB 262 -36.10dB 326 -29.70dB 390 -23.30dB 454 -18.45dB

7 -120.00dB 71 -70.40dB 135 -57.60dB 199 -44.80dB 263 -36.00dB 327 -29.60dB 391 -23.20dB 455 -18.40dB

8 -117.00dB 72 -70.20dB 136 -57.40dB 200 -44.60dB 264 -35.90dB 328 -29.50dB 392 -23.10dB 456 -18.35dB

9 -114.00dB 73 -70.00dB 137 -57.20dB 201 -44.40dB 265 -35.80dB 329 -29.40dB 393 -23.00dB 457 -18.30dB

10 -111.00dB 74 -69.80dB 138 -57.00dB 202 -44.20dB 266 -35.70dB 330 -29.30dB 394 -22.90dB 458 -18.25dB

11 -108.00dB 75 -69.60dB 139 -56.80dB 203 -44.00dB 267 -35.60dB 331 -29.20dB 395 -22.80dB 459 -18.20dB

12 -105.00dB 76 -69.40dB 140 -56.60dB 204 -43.80dB 268 -35.50dB 332 -29.10dB 396 -22.70dB 460 -18.15dB

13 -102.00dB 77 -69.20dB 141 -56.40dB 205 -43.60dB 269 -35.40dB 333 -29.00dB 397 -22.60dB 461 -18.10dB

14 -99.00dB 78 -69.00dB 142 -56.20dB 206 -43.40dB 270 -35.30dB 334 -28.90dB 398 -22.50dB 462 -18.05dB

15 -96.00dB 79 -68.80dB 143 -56.00dB 207 -43.20dB 271 -35.20dB 335 -28.80dB 399 -22.40dB 463 -18.00dB

16 -95.00dB 80 -68.60dB 144 -55.80dB 208 -43.00dB 272 -35.10dB 336 -28.70dB 400 -22.30dB 464 -17.95dB

17 -94.00dB 81 -68.40dB 145 -55.60dB 209 -42.80dB 273 -35.00dB 337 -28.60dB 401 -22.20dB 465 -17.90dB

18 -93.00dB 82 -68.20dB 146 -55.40dB 210 -42.60dB 274 -34.90dB 338 -28.50dB 402 -22.10dB 466 -17.85dB

19 -92.00dB 83 -68.00dB 147 -55.20dB 211 -42.40dB 275 -34.80dB 339 -28.40dB 403 -22.00dB 467 -17.80dB

20 -91.00dB 84 -67.80dB 148 -55.00dB 212 -42.20dB 276 -34.70dB 340 -28.30dB 404 -21.90dB 468 -17.75dB

21 -90.00dB 85 -67.60dB 149 -54.80dB 213 -42.00dB 277 -34.60dB 341 -28.20dB 405 -21.80dB 469 -17.70dB

22 -89.00dB 86 -67.40dB 150 -54.60dB 214 -41.80dB 278 -34.50dB 342 -28.10dB 406 -21.70dB 470 -17.65dB

23 -88.00dB 87 -67.20dB 151 -54.40dB 215 -41.60dB 279 -34.40dB 343 -28.00dB 407 -21.60dB 471 -17.60dB

24 -87.00dB 88 -67.00dB 152 -54.20dB 216 -41.40dB 280 -34.30dB 344 -27.90dB 408 -21.50dB 472 -17.55dB

25 -86.00dB 89 -66.80dB 153 -54.00dB 217 -41.20dB 281 -34.20dB 345 -27.80dB 409 -21.40dB 473 -17.50dB

26 -85.00dB 90 -66.60dB 154 -53.80dB 218 -41.00dB 282 -34.10dB 346 -27.70dB 410 -21.30dB 474 -17.45dB

27 -84.00dB 91 -66.40dB 155 -53.60dB 219 -40.80dB 283 -34.00dB 347 -27.60dB 411 -21.20dB 475 -17.40dB

28 -83.00dB 92 -66.20dB 156 -53.40dB 220 -40.60dB 284 -33.90dB 348 -27.50dB 412 -21.10dB 476 -17.35dB

29 -82.00dB 93 -66.00dB 157 -53.20dB 221 -40.40dB 285 -33.80dB 349 -27.40dB 413 -21.00dB 477 -17.30dB

30 -81.00dB 94 -65.80dB 158 -53.00dB 222 -40.20dB 286 -33.70dB 350 -27.30dB 414 -20.90dB 478 -17.25dB

31 -80.00dB 95 -65.60dB 159 -52.80dB 223 -40.00dB 287 -33.60dB 351 -27.20dB 415 -20.80dB 479 -17.20dB

32 -79.00dB 96 -65.40dB 160 -52.60dB 224 -39.90dB 288 -33.50dB 352 -27.10dB 416 -20.70dB 480 -17.15dB

33 -78.00dB 97 -65.20dB 161 -52.40dB 225 -39.80dB 289 -33.40dB 353 -27.00dB 417 -20.60dB 481 -17.10dB

34 -77.80dB 98 -65.00dB 162 -52.20dB 226 -39.70dB 290 -33.30dB 354 -26.90dB 418 -20.50dB 482 -17.05dB

35 -77.60dB 99 -64.80dB 163 -52.00dB 227 -39.60dB 291 -33.20dB 355 -26.80dB 419 -20.40dB 483 -17.00dB

36 -77.40dB 100 -64.60dB 164 -51.80dB 228 -39.50dB 292 -33.10dB 356 -26.70dB 420 -20.30dB 484 -16.95dB

37 -77.20dB 101 -64.40dB 165 -51.60dB 229 -39.40dB 293 -33.00dB 357 -26.60dB 421 -20.20dB 485 -16.90dB

38 -77.00dB 102 -64.20dB 166 -51.40dB 230 -39.30dB 294 -32.90dB 358 -26.50dB 422 -20.10dB 486 -16.85dB

39 -76.80dB 103 -64.00dB 167 -51.20dB 231 -39.20dB 295 -32.80dB 359 -26.40dB 423 -20.00dB 487 -16.80dB

40 -76.60dB 104 -63.80dB 168 -51.00dB 232 -39.10dB 296 -32.70dB 360 -26.30dB 424 -19.95dB 488 -16.75dB

41 -76.40dB 105 -63.60dB 169 -50.80dB 233 -39.00dB 297 -32.60dB 361 -26.20dB 425 -19.90dB 489 -16.70dB

42 -76.20dB 106 -63.40dB 170 -50.60dB 234 -38.90dB 298 -32.50dB 362 -26.10dB 426 -19.85dB 490 -16.65dB

43 -76.00dB 107 -63.20dB 171 -50.40dB 235 -38.80dB 299 -32.40dB 363 -26.00dB 427 -19.80dB 491 -16.60dB

44 -75.80dB 108 -63.00dB 172 -50.20dB 236 -38.70dB 300 -32.30dB 364 -25.90dB 428 -19.75dB 492 -16.55dB

45 -75.60dB 109 -62.80dB 173 -50.00dB 237 -38.60dB 301 -32.20dB 365 -25.80dB 429 -19.70dB 493 -16.50dB

46 -75.40dB 110 -62.60dB 174 -49.80dB 238 -38.50dB 302 -32.10dB 366 -25.70dB 430 -19.65dB 494 -16.45dB

47 -75.20dB 111 -62.40dB 175 -49.60dB 239 -38.40dB 303 -32.00dB 367 -25.60dB 431 -19.60dB 495 -16.40dB

48 -75.00dB 112 -62.20dB 176 -49.40dB 240 -38.30dB 304 -31.90dB 368 -25.50dB 432 -19.55dB 496 -16.35dB

49 -74.80dB 113 -62.00dB 177 -49.20dB 241 -38.20dB 305 -31.80dB 369 -25.40dB 433 -19.50dB 497 -16.30dB

50 -74.60dB 114 -61.80dB 178 -49.00dB 242 -38.10dB 306 -31.70dB 370 -25.30dB 434 -19.45dB 498 -16.25dB

51 -74.40dB 115 -61.60dB 179 -48.80dB 243 -38.00dB 307 -31.60dB 371 -25.20dB 435 -19.40dB 499 -16.20dB

52 -74.20dB 116 -61.40dB 180 -48.60dB 244 -37.90dB 308 -31.50dB 372 -25.10dB 436 -19.35dB 500 -16.15dB

53 -74.00dB 117 -61.20dB 181 -48.40dB 245 -37.80dB 309 -31.40dB 373 -25.00dB 437 -19.30dB 501 -16.10dB

54 -73.80dB 118 -61.00dB 182 -48.20dB 246 -37.70dB 310 -31.30dB 374 -24.90dB 438 -19.25dB 502 -16.05dB

55 -73.60dB 119 -60.80dB 183 -48.00dB 247 -37.60dB 311 -31.20dB 375 -24.80dB 439 -19.20dB 503 -16.00dB

56 -73.40dB 120 -60.60dB 184 -47.80dB 248 -37.50dB 312 -31.10dB 376 -24.70dB 440 -19.15dB 504 -15.95dB

57 -73.20dB 121 -60.40dB 185 -47.60dB 249 -37.40dB 313 -31.00dB 377 -24.60dB 441 -19.10dB 505 -15.90dB

58 -73.00dB 122 -60.20dB 186 -47.40dB 250 -37.30dB 314 -30.90dB 378 -24.50dB 442 -19.05dB 506 -15.85dB

59 -72.80dB 123 -60.00dB 187 -47.20dB 251 -37.20dB 315 -30.80dB 379 -24.40dB 443 -19.00dB 507 -15.80dB

60 -72.60dB 124 -59.80dB 188 -47.00dB 252 -37.10dB 316 -30.70dB 380 -24.30dB 444 -18.95dB 508 -15.75dB

61 -72.40dB 125 -59.60dB 189 -46.80dB 253 -37.00dB 317 -30.60dB 381 -24.20dB 445 -18.90dB 509 -15.70dB

62 -72.20dB 126 -59.40dB 190 -46.60dB 254 -36.90dB 318 -30.50dB 382 -24.10dB 446 -18.85dB 510 -15.65dB

63 -72.00dB 127 -59.20dB 191 -46.40dB 255 -36.80dB 319 -30.40dB 383 -24.00dB 447 -18.80dB 511 -15.60dB

DME Remote Control Protocol Specifications V3.1 22

Value Data Value Data Value Data Value Data Value Data Value Data Value Data Value Data

512 -15.55dB 576 -12.35dB 640 -9.15dB 704 -5.95dB 768 -2.75dB 832 0.45dB 896 3.65dB 960 6.85dB

513 -15.50dB 577 -12.30dB 641 -9.10dB 705 -5.90dB 769 -2.70dB 833 0.50dB 897 3.70dB 961 6.90dB

514 -15.45dB 578 -12.25dB 642 -9.05dB 706 -5.85dB 770 -2.65dB 834 0.55dB 898 3.75dB 962 6.95dB

515 -15.40dB 579 -12.20dB 643 -9.00dB 707 -5.80dB 771 -2.60dB 835 0.60dB 899 3.80dB 963 7.00dB

516 -15.35dB 580 -12.15dB 644 -8.95dB 708 -5.75dB 772 -2.55dB 836 0.65dB 900 3.85dB 964 7.05dB

517 -15.30dB 581 -12.10dB 645 -8.90dB 709 -5.70dB 773 -2.50dB 837 0.70dB 901 3.90dB 965 7.10dB

518 -15.25dB 582 -12.05dB 646 -8.85dB 710 -5.65dB 774 -2.45dB 838 0.75dB 902 3.95dB 966 7.15dB

519 -15.20dB 583 -12.00dB 647 -8.80dB 711 -5.60dB 775 -2.40dB 839 0.80dB 903 4.00dB 967 7.20dB

520 -15.15dB 584 -11.95dB 648 -8.75dB 712 -5.55dB 776 -2.35dB 840 0.85dB 904 4.05dB 968 7.25dB

521 -15.10dB 585 -11.90dB 649 -8.70dB 713 -5.50dB 777 -2.30dB 841 0.90dB 905 4.10dB 969 7.30dB

522 -15.05dB 586 -11.85dB 650 -8.65dB 714 -5.45dB 778 -2.25dB 842 0.95dB 906 4.15dB 970 7.35dB

523 -15.00dB 587 -11.80dB 651 -8.60dB 715 -5.40dB 779 -2.20dB 843 1.00dB 907 4.20dB 971 7.40dB

524 -14.95dB 588 -11.75dB 652 -8.55dB 716 -5.35dB 780 -2.15dB 844 1.05dB 908 4.25dB 972 7.45dB

525 -14.90dB 589 -11.70dB 653 -8.50dB 717 -5.30dB 781 -2.10dB 845 1.10dB 909 4.30dB 973 7.50dB

526 -14.85dB 590 -11.65dB 654 -8.45dB 718 -5.25dB 782 -2.05dB 846 1.15dB 910 4.35dB 974 7.55dB

527 -14.80dB 591 -11.60dB 655 -8.40dB 719 -5.20dB 783 -2.00dB 847 1.20dB 911 4.40dB 975 7.60dB

528 -14.75dB 592 -11.55dB 656 -8.35dB 720 -5.15dB 784 -1.95dB 848 1.25dB 912 4.45dB 976 7.65dB

529 -14.70dB 593 -11.50dB 657 -8.30dB 721 -5.10dB 785 -1.90dB 849 1.30dB 913 4.50dB 977 7.70dB

530 -14.65dB 594 -11.45dB 658 -8.25dB 722 -5.05dB 786 -1.85dB 850 1.35dB 914 4.55dB 978 7.75dB

531 -14.60dB 595 -11.40dB 659 -8.20dB 723 -5.00dB 787 -1.80dB 851 1.40dB 915 4.60dB 979 7.80dB

532 -14.55dB 596 -11.35dB 660 -8.15dB 724 -4.95dB 788 -1.75dB 852 1.45dB 916 4.65dB 980 7.85dB

533 -14.50dB 597 -11.30dB 661 -8.10dB 725 -4.90dB 789 -1.70dB 853 1.50dB 917 4.70dB 981 7.90dB

534 -14.45dB 598 -11.25dB 662 -8.05dB 726 -4.85dB 790 -1.65dB 854 1.55dB 918 4.75dB 982 7.95dB

535 -14.40dB 599 -11.20dB 663 -8.00dB 727 -4.80dB 791 -1.60dB 855 1.60dB 919 4.80dB 983 8.00dB

536 -14.35dB 600 -11.15dB 664 -7.95dB 728 -4.75dB 792 -1.55dB 856 1.65dB 920 4.85dB 984 8.05dB

537 -14.30dB 601 -11.10dB 665 -7.90dB 729 -4.70dB 793 -1.50dB 857 1.70dB 921 4.90dB 985 8.10dB

538 -14.25dB 602 -11.05dB 666 -7.85dB 730 -4.65dB 794 -1.45dB 858 1.75dB 922 4.95dB 986 8.15dB

539 -14.20dB 603 -11.00dB 667 -7.80dB 731 -4.60dB 795 -1.40dB 859 1.80dB 923 5.00dB 987 8.20dB

540 -14.15dB 604 -10.95dB 668 -7.75dB 732 -4.55dB 796 -1.35dB 860 1.85dB 924 5.05dB 988 8.25dB

541 -14.10dB 605 -10.90dB 669 -7.70dB 733 -4.50dB 797 -1.30dB 861 1.90dB 925 5.10dB 989 8.30dB

542 -14.05dB 606 -10.85dB 670 -7.65dB 734 -4.45dB 798 -1.25dB 862 1.95dB 926 5.15dB 990 8.35dB

543 -14.00dB 607 -10.80dB 671 -7.60dB 735 -4.40dB 799 -1.20dB 863 2.00dB 927 5.20dB 991 8.40dB

544 -13.95dB 608 -10.75dB 672 -7.55dB 736 -4.35dB 800 -1.15dB 864 2.05dB 928 5.25dB 992 8.45dB

545 -13.90dB 609 -10.70dB 673 -7.50dB 737 -4.30dB 801 -1.10dB 865 2.10dB 929 5.30dB 993 8.50dB

546 -13.85dB 610 -10.65dB 674 -7.45dB 738 -4.25dB 802 -1.05dB 866 2.15dB 930 5.35dB 994 8.55dB

547 -13.80dB 611 -10.60dB 675 -7.40dB 739 -4.20dB 803 -1.00dB 867 2.20dB 931 5.40dB 995 8.60dB

548 -13.75dB 612 -10.55dB 676 -7.35dB 740 -4.15dB 804 -0.95dB 868 2.25dB 932 5.45dB 996 8.65dB

549 -13.70dB 613 -10.50dB 677 -7.30dB 741 -4.10dB 805 -0.90dB 869 2.30dB 933 5.50dB 997 8.70dB

550 -13.65dB 614 -10.45dB 678 -7.25dB 742 -4.05dB 806 -0.85dB 870 2.35dB 934 5.55dB 998 8.75dB

551 -13.60dB 615 -10.40dB 679 -7.20dB 743 -4.00dB 807 -0.80dB 871 2.40dB 935 5.60dB 999 8.80dB

552 -13.55dB 616 -10.35dB 680 -7.15dB 744 -3.95dB 808 -0.75dB 872 2.45dB 936 5.65dB 1000 8.85dB

553 -13.50dB 617 -10.30dB 681 -7.10dB 745 -3.90dB 809 -0.70dB 873 2.50dB 937 5.70dB 1001 8.90dB

554 -13.45dB 618 -10.25dB 682 -7.05dB 746 -3.85dB 810 -0.65dB 874 2.55dB 938 5.75dB 1002 8.95dB

555 -13.40dB 619 -10.20dB 683 -7.00dB 747 -3.80dB 811 -0.60dB 875 2.60dB 939 5.80dB 1003 9.00dB

556 -13.35dB 620 -10.15dB 684 -6.95dB 748 -3.75dB 812 -0.55dB 876 2.65dB 940 5.85dB 1004 9.05dB

557 -13.30dB 621 -10.10dB 685 -6.90dB 749 -3.70dB 813 -0.50dB 877 2.70dB 941 5.90dB 1005 9.10dB

558 -13.25dB 622 -10.05dB 686 -6.85dB 750 -3.65dB 814 -0.45dB 878 2.75dB 942 5.95dB 1006 9.15dB

559 -13.20dB 623 -10.00dB 687 -6.80dB 751 -3.60dB 815 -0.40dB 879 2.80dB 943 6.00dB 1007 9.20dB

560 -13.15dB 624 -9.95dB 688 -6.75dB 752 -3.55dB 816 -0.35dB 880 2.85dB 944 6.05dB 1008 9.25dB

561 -13.10dB 625 -9.90dB 689 -6.70dB 753 -3.50dB 817 -0.30dB 881 2.90dB 945 6.10dB 1009 9.30dB

562 -13.05dB 626 -9.85dB 690 -6.65dB 754 -3.45dB 818 -0.25dB 882 2.95dB 946 6.15dB 1010 9.35dB

563 -13.00dB 627 -9.80dB 691 -6.60dB 755 -3.40dB 819 -0.20dB 883 3.00dB 947 6.20dB 1011 9.40dB

564 -12.95dB 628 -9.75dB 692 -6.55dB 756 -3.35dB 820 -0.15dB 884 3.05dB 948 6.25dB 1012 9.45dB

565 -12.90dB 629 -9.70dB 693 -6.50dB 757 -3.30dB 821 -0.10dB 885 3.10dB 949 6.30dB 1013 9.50dB

566 -12.85dB 630 -9.65dB 694 -6.45dB 758 -3.25dB 822 -0.05dB 886 3.15dB 950 6.35dB 1014 9.55dB

567 -12.80dB 631 -9.60dB 695 -6.40dB 759 -3.20dB 823 0.00dB 887 3.20dB 951 6.40dB 1015 9.60dB

568 -12.75dB 632 -9.55dB 696 -6.35dB 760 -3.15dB 824 0.05dB 888 3.25dB 952 6.45dB 1016 9.65dB

569 -12.70dB 633 -9.50dB 697 -6.30dB 761 -3.10dB 825 0.10dB 889 3.30dB 953 6.50dB 1017 9.70dB

570 -12.65dB 634 -9.45dB 698 -6.25dB 762 -3.05dB 826 0.15dB 890 3.35dB 954 6.55dB 1018 9.75dB

571 -12.60dB 635 -9.40dB 699 -6.20dB 763 -3.00dB 827 0.20dB 891 3.40dB 955 6.60dB 1019 9.80dB

572 -12.55dB 636 -9.35dB 700 -6.15dB 764 -2.95dB 828 0.25dB 892 3.45dB 956 6.65dB 1020 9.85dB

573 -12.50dB 637 -9.30dB 701 -6.10dB 765 -2.90dB 829 0.30dB 893 3.50dB 957 6.70dB 1021 9.90dB

574 -12.45dB 638 -9.25dB 702 -6.05dB 766 -2.85dB 830 0.35dB 894 3.55dB 958 6.75dB 1022 9.95dB

575 -12.40dB 639 -9.20dB 703 -6.00dB 767 -2.80dB 831 0.40dB 895 3.60dB 959 6.80dB 1023 10.00dB

© 2005-2009 Yamaha Corporation

DME Remote Control Protocol Specifications V3.1 23