V.24

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A service aid from the Deutsche Bundespost for service technicians in pocket size

The Recommendation V.24 of the ITU-T is intended primarily to an interface for data transmission to standardize. For this purpose, it describes interface lines and their function in a data transmission system between a data terminal device ( DEE , DTE ) and a data transmission device ( DÜE , DCE ).

This recommendation has been adapted several times to the technical conditions. Of the more than 50 originally described functions, 37 have been used since 2000.

The DIN standard DIN 66020-1 corresponds to V.24 from 1996. The American standard RS-232 also describes interface cables .

Device manufacturers are generally free to use these interface cables, but are recommended by ITU-T for certain analog modem types .

Applications

By combining the different interface lines, different data transmission variants can be implemented:

Serial asynchronous communication (computer / PC technology)
Serial synchronous communication (professional technology, e.g. the German Datex-P network)
Data transmission via an additional auxiliary channel (Backward channel / Secondary channel); z. BV23 modems when BTX is introduced
Parallel communication (V.19; V.20 is out of date)

development

Interface cables with the designation 1xx (102, 103 .., 100 series) are intended for DEE-DÜE communication (modem functions).

The functions of the 200 series, which were removed in 2000, were designed for connection establishment in dial-up networks. The associated procedure ( V.25 ) for transferring the dialing characters to a dialable device still exists, but only for the direction to the transmission network. The interface control of the DEE via the V.24, lines of the 200 series has been removed.

The following ITU-T recommendations V.25bis, V.250 (formerly V.25ter) use lines from the 100 series to establish connections.

An optional device for establishing a connection is referred to as an automatic dialing device for data connections (AWD). It is an external device or integrated in a modem.

Described interface lines

Older modem with auxiliary channel and integrated AWD, interface designation according to DIN 66020-1. This modem was changed slightly and used as a "provider modem" in the BTX system.

Although the international standards are partially similar, the naming is very different:

ITU numbers the interfaces from 100 or from 200.
DIN assigns letters with consecutive digits due to the function:
- E = earth or ground line
- D = data line
- S = control line
- M = message line
- T = clock line
- P = test lead
  - PS = test control
  - PM = test message
- H = auxiliary channel
  - HD = auxiliary channel data
  - HS = auxiliary channel control
  - HM = auxiliary channel message
- W = select bit
RS-232 uses a name similar to DIN, but only with letters:
- A = earth or ground line
- B = data line
- C = control or reporting line
- D = clock line
- S = auxiliary channel

The abbreviations in the first column of the table are used colloquially. The pin number refers to the D-Sub -25 design.

	ITU	DIN	RS-232	Pin code	Description according to DIN 66020-1	Description according to ITU-T V.24 / RS-232
Earth lines (return lines, earth connections)
GND	102	E2	FROM	7th	Plant earth	Signal ground or common return / signal ground
	102a	E2a			DEE return conductor	DTE common return
	102b	E2b			DÜE return conductor	DCE common return
	102c	E2c			Return line for single-current interfaces	Common return
Data interfaces
TXD, TX, TD	103	D1	BA	2	Transmission data	Transmitted data ^{see Note 1}
RXD, RX, RD	104	D2	BB	3	Receive data	Received data ^{s. Note 1}
Interfaces for controlling a data transmission
	108/1	S1.1		20th	Switch on the transmission line	Connect data set to line ^{s. Note 2}
DTR	108/2	S1.2	CD	20th	DEE ready for operation	Data terminal ready ^{s. Note 2}
RTS	105	S2	CA	4th	Switch on the transmitter	Request to send ^{s. Note 3}
	124	S3			Use all frequency groups	Select frequency groups
SEL	111	S4	CH	23	Switch on high transmission speed	Data signaling rate selector (DTE source) ^{s. Note 4}
	126	S5		11	Switch on the high transmission frequency	Select transmit frequency
	127	S6			Switch on the low receiving frequency	Select receive frequency
RFR	133	S7	CJ	4th	Retrieve received data	Ready for receiving ^{s. Note 3}
	116/1	S8.1			Switch on substitute operation	Back-up switching in direct mode
	116/2	S8.2			Prepare replacement operation	Back-up switching in authorized mode
	130	S9			Send confirmation tone	Transmit backward tone
	136	S10			Short post-effect time	New signal
	129	S11			Switch on the receiver	Request to receive
	132	S12			Replace data operation	Return to non-data mode
Interfaces for controlling an auxiliary channel (backward or secondary channel)
SXMT	118	HD1	SBA	14th	Auxiliary channel send data	Transmitted backward channel data
SRCV	119	HD2	SBB	16	Auxiliary channel receive data	Received backward channel data
SRTS	120	HS2	SCA	19th	Switch on auxiliary channel transmitter	Transmit backward channel line signal / secondary request to send
SCTS	121	HM2	SCB	13	Auxiliary channel ready to send	Backward channel ready / secondary clear to send
SDCD	122	HM5	SCF	12	Auxiliary channel received signal detection	Backward channel received line signal detector
	123	HM6			Auxiliary channel reception quality	Backward channel signal quality detector
Clock lines for synchronous data transmission
TCK	113	T1	THERE	24	Sending step rate to the DCE	Transmitter signal element timing (DTE source)
XCK	114	T2	DB	15th	Signal element send clock from the DCE	Transmitter signal element timing (DCE source)
	128	T3			Receive step act to the DCE	Receiver signal element timing (DTE source)
RCK	115	T4	DD	17th	Signal element reception clock	Receiver signal element timing (DCE source)
	131	T5			Receiving-side scanning mark	Received character timing
Control lines for test conditions
	140	PS2		21st	Switch on remote test loop / test mode	Loopback / maintenance test
	141	PS3		18th	Switch on near test loop	Local loopback
Message lines for data transmission
DSR	107	M1	CC	6th	Operational readiness	Data set ready
CTS	106	M2	CB	5	Readiness to send	Ready for sending / Clear To send
RNG, RI	125	M3	CE	22nd	Incoming call	Calling indicator / ring indicator
	112	M4	CI	12	High transmission speed	Data signaling rate selector (DCE source) ^{s. Note 3}
DCD, CD	109	M5	CF	8th	Received signal detection	Data channel received line signal detector / (Data) Carrier detect
SQD	110	M6	CG	21st	Reception quality	Data signal quality detector
	134	M7			Receive data identification	Received data present
	117	M8			Replacement operation	Standby indicator
Message line via test status
	142	PM1		25th	Test condition	Test indicator
Analog interfaces for voice response
	191	A1			Sent voice response	Transmitted voice answer
	192	A2			Voice response received	Received voice answer
Interfaces of the 200 series for controlling an AWD according to ITU V.25 or DIN 66021-4 (separate plug connection)
	201	E22		7th	Plant earth	Signal ground or common return
	206	W21		14th	Select bit 1	Digit signal (2 ⁰ )
	207	W22		15th	Select bit 2	Digit signal (2 ¹ )
	208	W23		16	Select bit 3	Digit signal (2 ² )
	209	W24		17th	Select bit 4	Digit signal (2 ³ )
	202	S21		4th	Occupy the transmission line	Call request
	211	S22		2	Accept dialing characters	Digit present
	203	M21		22nd	Transmission line busy	Data line occupied
	210	M22		5	Readiness to accept dialing characters	Present next digit
	205	M23		3	Choice unsuccessful	Abandon call
	204	M24		13	Called station switched on	Distant station connected
	213	M25		6th	Operational readiness	Power indication

Note 1: This only applies to serial data transmission. Parallel modems according to V.19 have a different assignment.

Note 2: There are two ways to start a data transfer:

108/1: By activating this interface, the transmission device immediately seizes the line; the presence of an opposing device is not checked. This option is therefore only useful for dedicated connections.
108/2: The DTE is ready for operation, the transmission device is waiting to be activated. An incoming call, manual pressing of the user's data key or the M24 interface line of an AWD switches the transmission device to the line.

Note 3: The double pin assignment of RTS and RFR often leads to confusion in data flow control . This is described in ITU-T recommendation V.43.

Note 4: RS-232 puts the lines CH and CI on the same pin 23; they cannot be used at the same time.

Measuring devices at interfaces

Interface tester 100 series
Interface tester 200 series

Additional international standards from ITU and ISO

Mechanical description of frequently used connections:
- ISO 2110 (25-pin), used for common analog modems; often called “ Cannon plug ” in laboratory slang .
- ISO 4902 (37-pin), used with modems according to V.36
- ISO 4903 (15-pin), use in synchronous data networks according to X.21
- ISO 2593 (34-pin), used with modems according to V.35 , often also referred to as MRAC connector

Electrical properties of the signals to be transmitted:
- V.10 ,
- V.11 ,
- V.28 ,
- X.26 ,
- X.27

With analog modems (also in PC technology, ⇒ COM interface) levels according to V.28 are usually used.

Data transfer formats:
- V.4

swell

ITU-T V.24 (03/93 and 02/2000)
DIN 66020-1 (July 1999)
The pin assignment comes, among other things, from devices of the Deutsche Bundespost .

literature

Joe Campbell: V 24 / RS-232 communication , Sybex-Verlag, 1984, ISBN 3887450752