Level meter value

The level meter values [dB] are indicated as shown below.

LEVEL

 

LEVEL

 

under -30

30[H] (‘0’)

-4

39[H] (‘9’)

-30

31[H] (‘1’)

-3

3A[H] (‘:’)

-20

32[H] (‘2’)

-2

3B[H] (‘;’)

-15

33[H] (‘3’)

-1

3C[H] (‘<’)

-10

34[H] (‘4’)

0

3D[H] (‘=’)

-8

35[H] (‘5’)

1

3E[H] (‘>’)

-7

36[H] (‘6’)

2

3F[H] (‘?’)

-6

37[H] (‘7’)

3

40[H] (‘@’)

-5

38[H] (‘8’)

 

 

MIC SWITCH

This command is used to display the status of the +48V switches of the MIC1/WL1 to MIC6/LINE2 by the 8-bit data.

bit7

bit6

bit5

bit4

bit3

bit2

bit1

bit0

0

1

MIC6/LINE2

MIC5/LINE1

MIC4

MIC3

MIC2/WL2

MIC1/WL1

When the corresponding bit is ‘1’, the +48V switch is in the ON state. When the corresponding bit is ‘0’, it is in the OFF state. Bit-6 and bit-7 are fixed all the time.

WL RF

Turning on/off of the RF indicator of the wireless tuner that is installed in the SRP-X700P is indicated by the 8-bit data.

bit7

bit6

bit5

bit4

bit3

bit2

bit1

bit0

0

1

0

0

0

0

WL2

WL1

 

 

 

 

 

 

RF

RF

When the corresponding bit is ‘1’, the RF indicator turns on. When the corresponding bit is ‘0’, the RF indicator turns off. Bit-2 to bit-7 are fixed all the time.

MIC OVER GAIN

Turning on/off of the OVER GAIN indicators of MIC1/WL1 to MIC6/LINE2 is indicated by the 8-bit data.

bit7

bit6

bit5

bit4

bit3

bit2

bit1

bit0

0

1

MIC6/

MIC5/

MIC4

MIC3

MIC2/

MIC1/

 

 

LINE2

LINE1

 

 

WL2

WL1

When the corresponding bit is ‘1’, the OVER GAIN turns on. When the corresponding bit is ‘0’, the OVER GAIN turns off. Bit-6 and bit-7 are fixed all the time.

LINE INPUT OVER GAIN

Turning on/off of the OVER GAIN indicators of LINE3 and 4 is indicated by the 8-bit data.

bit7

bit6

bit5

bit4

bit3

bit2

bit1

bit0

0

1

0

0

0

0

LINE4

LINE3

When the corresponding bit is ‘1’, the OVER GAIN turns on. When the corresponding bit is ‘0’, the OVER GAIN turns off. Bit-2 to bit-7 are fixed all the time.

– 14 –

Page 14
Image 14
Sony RS-232C manual MIC Switch, Wl Rf, MIC Over Gain, Line Input Over Gain

RS-232C specifications

The Sony RS-232C is a renowned communication standard that has been widely utilized in various electronic devices, enabling serial communication between computers and peripheral devices. This protocol is integral in various applications, including industrial automation, medical equipment, and consumer electronics.

One of the main features of the Sony RS-232C is its simplicity and ease of use. The standard utilizes a basic serial communication method, allowing for asynchronous data transmission. This means that data can be sent one bit at a time over a single channel, ensuring reliable communication over short distances, typically up to 50 feet, although longer distances can be achieved with proper cable management and signal boosters.

The technology behind the RS-232C standard employs voltage levels to represent binary data. Logic level zero is represented by a voltage between -3 to -25 volts, while logic level one is between +3 to +25 volts. This voltage differential is crucial for distinguishing between 'on' and 'off' states in electronic signaling. The standard supports data rates of up to 115.2 kbps, making it suitable for various applications, although it is generally limited in speed when compared to modern communication standards like USB or Ethernet.

In terms of characteristics, the Sony RS-232C supports both full-duplex and half-duplex communication, allowing for simultaneous transmission and reception of data, or one-directional data transfer, respectively. The protocol also includes control signals for flow control, such as RTS (Request to Send) and CTS (Clear to Send), which help manage data transmission and prevent data loss due to buffer overflow.

The RS-232C standard has 25-pin and 9-pin connector configurations, although many devices now utilize the more compact 9-pin DIN format. This legacy standard remains prevalent in industrial settings, as many devices still use RS-232 connections.

Despite the emergence of more advanced communication protocols, the reliability and robustness of the Sony RS-232C ensure that it remains an enduring choice for numerous applications. Its straightforward configuration, coupled with extensive documentation and support, makes it a favorable option for both new installations and the maintenance of legacy systems in various industries. As technology continues to evolve, the RS-232C standard remains a testament to the enduring principles of reliable communication.