Yacht Devices YDTC-13 User manual

User Manual
Digital Thermometer YDTC-13
Digital Barometer YDBC-05
also covers models
YDTC-13R, YDTC-13RT, YDTC-13N, YDTC-13NT
YDBC-05R, YDBC-05RT, YDBC-05N, YDBC-05NT
Software version 1.22
2015

© 2015 Yacht Devices Ltd. Document YDBC05TC13-004. March 24, 2015.
Web: http://www.yachtd.com/
NMEA 2000® is a registered trademark of National Marine Electronics Association.
SeaTalk NG is a registered trademark of Raymarine UK Limited. Garmin® is a
registered trademark of Garmin Ltd.

Contents
Introduction .4
Warranty and Technical Support .6
Product Specication .7
Device Connection and Testing .9
Programming the Device 14
APPENDIX А. Troubleshooting 23
APPENDIX B. Description of Connectors and Joints 25
APPENDIX С. NMEA 2000 Messages 27
Package Contents
Device 1 pc.
This Manual 1 pc.

— 4 —
Introduction
This Manual contains information on how to install, congure and operate YDTC-13
digital thermometers (hereinafter Thermometer) and YDBC-05 digital barometers
(hereinafter Barometer) intended for using on pleasure crafts.
The Thermometer and Barometer (hereinafter, where the dierences are not
critical, Devices) have one digital sensor. Up to 50 devices may be used on a vessel
simultaneously; this limitation is set by the network specication. Data from the
Devices can be displayed on chartplotters, digital navigation instruments, as well as
used by other digital equipment of the vessel.
The Thermometer performs measurements within the range from -55 to +125 °С
(-67..+257 °F), the sensor is placed outside the case on a exible 95cm-long wire in a
sealed stainless steel sleeve and can be used to measure the temperature of gases and
liquids. The wire, if necessary, can be elongated up to 100 meters. The Thermometer
can be congured to display its data as "Air temperature", "Sea temperature",
"Temperature in the refrigerator", "Temperature in the engine room", etc.
The Barometer is intended for measuring atmospheric pressure within the range
from 300 to 1100 hPa (mbar). The sensor is located inside the device case. The
Barometer identier can be congured so that data from several Barometers will be
simultaneously displayed on a chartplotter.
The Devices are designed for operating in an NMEA 2000 network and are
compatible with a wide range of equipment supporting this protocol. Raymarine
SeaTalk NG, Simrad SimNet, Furuno CAN networks are branded versions of NMEA
2000 and dier only in the type of connectors. In its devices, Garmin uses the NMEA
2000 Micro connector which is compatible with the DeviceNet Micro connector. Our

— 5 —
Devices are supplied with dierent types of connectors, making it possible to connect
them to networks of dierent manufacturers without any adapters. The Device model
is shown on the case.
Device model Type of the connector, compatibility
(see Appendix B)
YDBC-05R, YDTC-13R Raymarine SeaTalk NG Female
YDBC-05RT,
YDTC-13RT Raymarine SeaTalk NG Female Terminator
YDBC-05N, YDTC-13N,
YDBC-05NT, YDTC-13NT
NMEA 2000 Micro Male, DeviceNet Micro Male,
Garmin NMEA 2000 Male
To connect to other types of NMEA 2000 networks, a cable adapter is required
(it is not supplied with the Device and must be purchased separately). Note that the
Devices are not compatible with the NMEA 0183 protocol.
According to the specication, an NMEA 2000 network has two terminators
(120-Ohm resistors) connected to the NMEA 2000 bus ends. Device models with the
T index at the end of their names contain a built-in terminator and should be
connected to the network instead of the terminator. This allows a zero-cost connection
of the Devices to existing networks with no free connectors. Please note that according
to the specication, you can not use more than two devices with the T index on one
NMEA 2000 bus.
We thank you for purchasing our Devices and wish you happy voyages!

— 6 —
Warranty and Technical Support
1. The Device warranty is valid for two years from the date of purchase. If a Device
was purchased in a retail store, when applying under a warranty case, the sale
receipt can be requested.
2. The Device warranty is terminated in case of violating the instructions of this
Manual, case integrity breach, repair or modication of the Device without
manufacturer’s written permission.
3. Modication of the Thermometer sensor cable is performed by the user at his own
risk, the warranty does not cover the Device failure in this case.
4. If a warranty request is accepted, the defective Device must be sent to the
manufacturer.
5. The warranty liabilities include repair and replacement of the goods and do not
include the cost of equipment installation and conguration, as well as shipping
the defective Device to the manufacturer.
6. Responsibility of the manufacturer in case of any damage as a consequence of the
Device operation or installation is limited to the Device cost.
7. The manufacturer is not responsible for any errors and inaccuracies in guides and
instructions of other companies.
8. The Device requires no maintenance. The Devices case is non-dismountable. In
case of a fault, please refer to Appendix A before contacting the technical support.
9. The manufacturer accepts applications under the warranty and provides technical
support only via e-mail or by the authorized dealers.
10. Contact details of the manufacturer and a list of the authorized dealers are
published on the website: http://www.yachtd.com/.

— 7 —
Product Specification
Figure 1. Combined drawing of the Thermometer and Barometer

— 8 —
Device parameter Value Unit
Operating voltage (from an NMEA 2000 network) 7..16 V
Protection against reverse polarity Yes —
Consumption current of the Thermometer / Barometer 24 / 24 mA
Load Equivalency Number 1 LEN
Operating temperature range (except the Thermometer sensor) -40..+80 °С
Weight of the Thermometer / Barometer 31 / 11 g
NMEA 2000 data output resolution 0.01 °С / hPa
Parameters of the Barometer
Measurement range 300..1100 hPa
Relative measurement accuracy ± 0.12 hPa
Absolute measurement accuracy, at 0..+65 °С± 1 hPa
Absolute measurement accuracy in the rest of the range ± 2.5 hPa
Parameters of the Thermometer
Measurement range -55..+125 °С
Error of the thermometer within the range of -10..+85°C, max ± 0.5 °С
Error of the thermometer within the rest of the range, max ± 2 °С

— 9 —
Device Connection and Testing
The Device requires no maintenance; calibration of the digital sensors has been
performed by the manufacturer.
When deciding where to install the Device, choose a dry mounting location.
Avoid places where the Device can be ooded with water, this can damage it. The
Thermometer sensor has a waterproof case made of stainless steel and is not intended
for permanent location in hostile environments such as sea water. To prevent
corrosion, when installing outdoors protect the sensor case with the help of a coating
of paint.
Read the model number on the Device case. If the model name has the T index at
the end (for example, YDBC-05NT), then the device has a built-in terminator (with
resistance of 120 Ohm) and must be connected to the bus instead of an existing
terminator. Dierent connectors for terminators (blue) and devices (white) are used
in the SeaTalk NG network, which eliminates the chance to err. In networks with the
NMEA 2000 Micro connectors (DeviceNet Micro, Garmin NMEA 2000), devices are
connected to the Female connector on the bus, while terminators are connected to
both Male and Female connectors.
The Device is directly connected to the bus without a drop cable. Before connecting
the Device, turn o the bus power supply. Refer to the manufacturer's documentation
if you have any questions regarding the use of connecting cables, terminators and
connectors:
• SeaTalk NG Reference Manual (81300-1) for Raymarine networks
• Technical Reference for Garmin NMEA 2000 Products (190-00891-00) for
Garmin networks

— 10 —
After connecting the Device, close the lock on the connection to ensure its water
resistance and reliability.
Figure 1. SeaTalk NG bus with the YDBC-05RT, YDTC-13R and
YDBC-05R (left to right)
After turning on the bus power supply, the Device LED will produce short signals
every 2 seconds.
If the Device is connected to a network having a chartplotter or any other device
transmitting a PGN 0x1F814 (129044) message with chart datum conguration or

— 11 —
PGN 0x1F11A (127258) with data on magnetic variation, the Device will produce six
LED signals with a period of 0.5 seconds when such message is received for the rst
time after power is on. This usually happens within 15 seconds after the Device is
turned on. The signal series conrms the Device is properly connected to the NMEA
2000 network and the chartplotter is able to receive data from the Device.
The Device information should be displayed in the list of NMEA 2000 devices
(SeaTalk NG, SimNet, Furuno CAN) or in the common list of external devices on the
chartplotter (see Figure 2). Usually, access to this list is in the "Diagnostics", "External
Interfaces" or "External devices" menu.
Data from the Device are available to all the equipment connected to the network
and can be displayed simultaneously on several chartplotters and digital navigation
instruments.
Under the factory settings, the Thermometer shows measured data as air temperature.
The Barometer always shows the measured data as atmospheric pressure, regardless
of the user’s settings.
Switch to the chartplotter screen, which provides information about the atmospheric
pressure (for the Barometer) and air temperature (for the Thermometer) or add this
indicator to the screen using instructions supplied with your equipment. Data in the
indicator should begin to appear no later than 5 seconds after turning the Device on.
Data is updated at an interval of two seconds.
Many chartplotters and digital navigation instruments are able to display data on
pressure and temperature in the form of graphs; this allows tracking of trends in the
weather. The digital indicator can also contain a trend pointer (see Figure 3).

— 12 —
Figure 2. Raymarine c125 MFD devices list with Barometer and Thermometer
The Thermometer can be reprogrammed by the user to display data in other indicators,
such as «Sea temperature», «Temperature in the engine room», «Temperature in the
refrigerator» (see «Programming the Device»).
The Thermometer sensor cable can be elongated up to 100 m by the user himself

— 13 —
Figure 3. Garmin GPSmap 721 display with the connected Barometer and
two Thermometers
(note that the warranty for the modied Device is not maintained). To do this, turn
the Device o, cut the cable in the middle (see Appendix B) and extend it with a three-
conductor wire and properly insulate the joints. The wires are recommended to be
connected by crimping in sleeves rather than soldering. Soldered connections can
quickly break down in the marine environment.

— 14 —
The core section of the connection cable must not be less than 0.2 sq. mm, with the
diameter of 0.5 mm. Cables of UTP 3, UTP 5, UTP 5e categories with the AWG-24
and AWG-22 labelling used for telephone lines and computer networks are suitable
for the role of a connection cable. When routing the cable, avoid powerful sources of
electromagnetic interference: motors, compressors, generators, electric pumps and
transmitting antennas.
If after the cable extention the Thermometer shows a temperature of 290 °C, this
indicates absence of communication with the digital sensor (see. APPENDIX A.
Troubleshooting). In this case, check the connection cable and joints.
Programming the Device
Programming the Device should not be performed at sea. To program the Device,
you must connect it to a network with a chartplotter. If one network includes several
chartplotters, turn o all of them except the one from which you will program the
Device. If multiple Devices are connected to the network, they will be programmed
at the same time. The Device conrms commands received from the chartplotter by
lighting LEDs for 3 seconds once or repeatedly. If you are not able to see the Device
LED when sitting behind the chartplotter, you may need an assistant.
Programming the Device is performed either by a sequential change of chart datum
settings, or sequential change of the magnetic variation settings on the chartplotter.
Older models of Raymarine plotters do not send notications on changing the
magnetic variation (NMEA 2000 message with PGN 127258) and only the rst
method is available for them. Garmin plotters do not send notications on changing
the chart datum (NMEA 2000 message with PGN 129044) and only the second
method is available for them.

— 15 —
Figure 1. Setting the chart datum and magnetic variation on Raymarine c125
To select a programming method, refer to the documentation of your chartplotter. In
some cases you may need to update the plotter rmware. Theoretically, programming
the Device can be performed using a plotter of any manufacturer.

— 16 —
STEP 1. Putting the Device into standby mode
The Device enters standby mode if, when it is switched on, the chart datum is set on
the plotter as follows:
• to “Australian Geodetic 1966” for the Thermometer
• to “European 1950 (Mean, European Datum)” for the Barometer
Or if the magnetic variation on the plotter is set to a user-dened value with the
following parameter:
• 28°W for the Thermometer
• 29°E for the Barometer
Usually the plotter sends notications on settings every 20 seconds. When changing
the setting on the plotter as mentioned above, do not forget to remember the initial
conguration of the plotter. Cycle the Device power. Within a minute after the Device
is turned on, it will produce a conrmation signal (LED will light up for 3 seconds).
This means that the Device is put into standby mode. If the Device power is turned
o along with the plotter power, the wait time for the signal will be increased by the
plotter loading time.
If after some time the setting on the plotter automatically returns to the previous value,
it means that there is another device in the network sending notications. It may be
an NMEA0183-NMEA2000 converter, another plotter, or a computer connected to
the NMEA 2000 network. Turn o the power of this device or disconnect it from the
NMEA2000 bus at the time of programming. It is recommended to disconnect any
such device from the bus when the bus power is o.

— 17 —
STEP 2. Putting the Device into programming mode
If the Device was put into standby mode by setting the chart datum (magnetic
variation), all the subsequent steps should be carried out with the setting of chart
datum (magnetic variation).
In the standby mode, without turning the Device power o, change the chart datum
setting on the plotter
• to “European 1950 (Mean, European Datum)” for the Thermometer
• to “Australian Geodetic 1966” for the Barometer
Or change the magnetic variation setting to:
• 29°E for the Thermometer
• 28°W for the Barometer
The Device will produce one conrmation signal and enter programming mode.
The programming mode ends automatically 10 minutes after the Device power is
turned on. Four conrmation signals are produced at the same time. After that, the
Device returns to normal operation mode. The settings are not saved into non-volatile
memory and if the Device settings were changed at the time of programming, they will
be kept only until the Device power is turned o.
STEP 3. Programming the Device
When programming, you can customize the list of NMEA 2000 messages containing
data sent by the Device, as well as the type of the transmitted data (for the

— 18 —
Thermometer only, the Barometer always has the “atmospheric pressure” data type).
Table 1. Setting NMEA 2000 messages for the Barometer and Thermometer
Messages
setting Description
0 (factory
setting)
Maximum compatibility mode. Transfer of the measured value in
messages: PGN 0x1FD06 (130310), PGN 0x1FD07 (130311), PGN
0x1FD0A (130314) (for the Barometer only) with instance 0, PGN
0x1FD08 (130312) (for the Thermometer only) with instance 0.
1Transfer of the measured value only in PGN 0x1FD06 (130310)
messages.
2Transfer of the measured value only in PGN 0x1FD07 (130311)
messages.
3..15
Transfer of the measured value only in PGN 0x1FD0A (130314)
(for the Barometer only) and PGN 0x1FD08 (130312) (for the
Thermometer only) messages with instance 0..12.
We recommend using the maximum compatibility mode (value 0 in Table 1) and
not changing the factory settings of messages unnecessarily. The PGN 0x1FD0A
(130314) and 0x1FD08 (130312) messages are supported only by new (released
after 2012) models of chartplotters. The 0x1FD07 (130311) message may not be
supported by plotters released before 2010. Often, when updating the rmware of
plotters, manufacturers add support for new messages, but do not specify this in the
documentation.
Interpretation of the instance meaning (values 3..15 in Table 1) for PGN 0x1FD0A

— 19 —
(130314) and PGN 0x1FD08 (130312) depends on the plotter manufacturer. Data
on the refrigerator temperature with instance 3 can be displayed as “Temperature in
refrigerator № 3”. In practice, we have not seen plotters with such ability.
Please note that all the messages transmitted by the Device are informational. They
can be used by other devices during their operation (to show them on a display
or to trigger an alarm when exceeding a predetermined level), but are not used as
automated control data for autotuning. Transmitting data on the cabin temperature
will not change the operating mode of the cabin heater.
You can choose one of the 14 types of data sources for the Thermometer. Note that,
for example, data on the engine room temperature (value 3 in Table 2) can be send
only in the PGN 0x1FD07 (130311) or 0x1FD08 (130312) messages. If you change the
message setting to the value of 1 (see Table 1) and allow only PGN 0x1FD06 (130310)
messaging, the Thermometer will stop transmitting temperature data as engine room
temperature cannot be sent in this message. When conguring messages with the
value of 0 (see Table 1) and data source with the value of 13 (Freezer temperature, see
Table 2), only PGN 0x1FD08 (130312) messages will be transmitted, because these
data can not be transferred in other messages.
Regardless of settings, the Device receives and transmits NMEA 2000 service
messages (see Appendix C) and is displayed in the list of NMEA 2000 devices
(SeaTalk NG, SimNet, Furuno CAN).
Programming the Device is performed by changing the chart datum or magnetic
variation setting on the plotter. The Device conrms the command by producing a
single signal (unless shown otherwise in Table 3). The Device must be previously put
into programming mode (STEP 2).

— 20 —
Table 2. Setting type of a data source for the Thermometer
Data type
setting Description
NMEA 2000 messages, PGN
0x1FD06
(130310)
0x1FD07
(130311)
0x1FD08
(130312)
0 Sea Temperature. Yes Yes Yes
1 (factory
setting) Outside Temperature. Yes Yes Yes
2 Inside Temperature. - Yes Yes
3 Engine Room Temperature. - Yes Yes
4 Main Cabin Temperature. - Yes Yes
5 Live Well Temperature. - - Yes
6 Bait Well Temperature. - - Yes
7 Refrigeration Temperature. - - Yes
8 Heating System Temperature. - - Yes
9 Dew Point Temperature. - - Yes
10 Wind Chill Temperature,
Apparent. - - Yes
11 Wind Chill Temperature,
Theoretical. - - Yes
12 Heat Index Temperature. - - Yes
13 Freezer Temperature. - - Yes
Other manuals for YDTC-13
1
This manual suits for next models
9
Table of contents
Popular Thermometer manuals by other brands

miniland
miniland thermoadvanced easy manual

REPTIL'US
REPTIL'US TH DIGITAL quick start guide

Hartmann
Hartmann Thermoval rapid quick start guide

Solight
Solight TE09 operating instructions

Welch Allyn
Welch Allyn SureTemp 679 Operating instructions manual

Extech Instruments
Extech Instruments IRC130 user manual