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Connecting devices together

The basics

NMEA data is transmitted from an information source such 

as  GPS,  depth  sounder,  gyro  compass  etc.  These  data 

sending devices are called “

Talkers

”.

Equipment  receiving  this  information  such  as  a  chart-

plotter, radar or NMEA display is called a “

Listener

”. 

Unfortunately, only one Talker can be connected on to a 

single NMEA 0183 system at any one time. Two or more 

Talkers  are  simply  not  possible  because  they  are  not 

synchronised  to  each  other,  and  will  attempt  to  ‘talk’  at 

the same time (over each other), resulting in corruption of 

the NMEA data, and potentially in disaster if valuable data 

such as navigation information is lost or corrupted so that 

it is incorrect and/or misleading.

Actisense™

 produces a full range of products to solve all 

NMEA interfacing requirements.

Please  visit  the 

Actisense™  website

  for  full  details  on 

these and other 

Actisense™ 

interfacing, Depth sounding 

and Sonar products.

The NMEA signals

The NMEA 0183 system v2.0 and later uses a ”differential” 

signalling scheme, whereby two wires are used to transmit 

the  NMEA  data.  These  connections  will  be  labelled  as 

either NMEA “

A

” and “

B

“ or NMEA “

+

” and “

-

“ respectively, 

depending on the instrument and manufacturer.

When connecting between different manufacturers, there 

can  be  some  confusion,  but  it  is  simple  and  easy  to 

remember: NMEA “

A

” connects to NMEA “

+

” and NMEA 

B

“ connects to NMEA “

-

“.

The different NMEA standards

The NMEA 0183 specification has slowly evolved over the

years, so connecting one device to another is not always a 

straightforward matter. The earlier versions of NMEA 0183 

(before  v2.0,  as  detailed  above),  used  slightly  different 

connection  methods  and  signal  levels:  the  instruments 

had  just  one  “NMEA”  data  line  (‘

Tx

’  or  ‘

Out

’),  and  used  

the ground as the other line - similar to the way a computer 

serial port works. This connection method is referred to as 

“single ended” instead of the “differential” method used by 

NMEA 0183 v2.0 devices.

The  data  format  is  largely  the  same  between  both 

systems,  with  v2.0  adding  some  extra  sentence  strings, 

and removing older (redundant) sentence strings from the 

specification. The situation is further complicated, as many

manufacturers still use the old (“single ended”) method of 

connection because it is cheaper to implement.

So how can an older type NMEA device be connected to a 

newer type device?

Care  is  needed  –  it  is  possible  to  damage  or  overload 

the output of a newer differential device if it is incorrectly 

connected to an older device. This is because the older 

devices  used  ground  as  the  return,  whereas  the  newer 

devices actually drive the NMEA “

-/B

” line between 5v and 

0v. Thus, connecting this output to ground will result in high 

currents being drawn by the driver instrument, resulting in 

potential overheating and damage to the driver circuits.

To connect a new type differential device to an old type 

single-ended system, connect the NMEA “

+/A

” output from 

the differential driver to the single-ended NMEA “

Rx

” or “

In

” 

input of the device. Leave the NMEA “

-/B

” output floating.

Connect the ground line of the differential output device to 

the ground of the single-ended device. This provides the 

required data signal return current path.

To connect an old type single-ended device to a new type 

differential device, connect the NMEA ”

Tx

” or “

Out

” output 

from  the  single-ended  driver  to  the  differential  NMEA 

+/A

” input of the device. Connect the ground line of the 

single-ended output device to the NMEA “

-/B

” input of the 

differential  device.  This  provides  the  data  signal  return 

current path. If the NMEA “

-/B

” input is left floating, then

data corruption / errors may occur.

Please  refer  to  the 

Output  Connections

  section  for 

example of these connection methods.

Summary of Contents for NDC-3

Page 1: ...er NDC 3 B User Manual Issue 1 31 Multiple talker interface for use with the NMEA 0183 standard Serial data networking of marine electronic devices instruments Personal computer RS232 interface to NME...

Page 2: ......

Page 3: ...mpatible RS 232 bi directional port 5 Technical features 5 Software updates 5 Connecting devices together 6 The basics 6 The NMEA signals 6 The different NMEA standards 6 Connections 7 Connecting to N...

Page 4: ...n the NMEA sentence is validated Therefore the electronic device s supplying the NDC 3 with NMEA data retain s the sole responsibility for the NMEA data s validity Foreword Actisense recognises that i...

Page 5: ...m drive capability The full differential output ensures better quality communications and lower noise emissions on unshielded twisted pair cabling Full speci cation RS232 interface ensures that any ma...

Page 6: ...ine Tx or Out and used the ground as the other line similar to the way a computer serial port works This connection method is referred to as single ended instead of the differential method used by NME...

Page 7: ...to a Personal Computer PC or other marine device capable of interfacing to a standard RS 232 port 4 Battery supply input Note 1 To complete the NMEA 0183 standard all device interconnection NMEA cable...

Page 8: ...connection ID s Simply connect A to A and B to B refer to gure 2 NMEA Talker device 3 This device does not conform completely to the NMEA 0183 standard However by connecting to A and its G Ground to t...

Page 9: ...ine and one for the RX line Use the spare wire in each pair as ground and connect the cable shield to ground only at the computer end 3 The TX of the NDC 3 should be connected to the RX of the compute...

Page 10: ...ion Also indicates that no data is currently being received by the NDC 3 hardware Green Flashing 1 10 per second Normal and data Rx mode No error No response required A normal operation mode that indi...

Page 11: ...e reduces to 2v 32 mA Output short circuit current 50 55 mA Baud rate xed see note 3 4 8 kbit sec Data propagation delay 1 0 100 ms RS 232 Input voltage range 15 15 V Input voltage threshold LOW 0 8 1...

Page 12: ...202 746682 International 44 1202 746682 Fax 01202 746683 International 44 1202 746683 Actisense on the Web For advice support and product details E mail support actisense com Website www actisense com...

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