Thornwave Labs BTDCPM Bluetooth Smart DC Power Meter User Manual

Thornwave Labs Inc Bluetooth Smart DC Power Meter

User Manual

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Document ID3539553
Application IDbxBjxiNX89BPg3/PwWZshA==
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Date Submitted2017-08-31 00:00:00
Date Available2017-10-16 00:00:00
Creation Date2017-08-17 19:42:58
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Document TitleUser Manual
Document CreatorMicrosoft® Word 2016
Document Author: Raz

Bluetooth Smart DC Power Meter with
Low Voltage and Over-current Disconnect
– BT-DCPM –
BRIEF
The BT-DCPM device is a Bluetooth Smart DC power meter allowing remote monitoring of important
electrical parameters in DC circuits. BT-DCPM is also able to drive a mechanical or solid-state relay allowing it to
function as a low voltage, over-current disconnect, remote on/off or timer. The following can be monitored:
two voltage inputs (0-60V), current (0-60A using the internal shunt resistor or up to 300-600A using an external
shunt resistor), power (W), energy (Wh), battery charge flow (Ah) and temperature. The power meter can
function in either unidirectional or bidirectional current mode. It can sense current flow in both directions
(positive and negative current). A mobile device running either Android or iOS and the provided applications
(available for free on Google Play Store and Apple App Store) are required for monitoring and configuring of the
device.
Figure 1. BT-DCPM
FEATURES
•
•
•
•
•
•
•
Ideal for remotely monitoring DC current
flow unidirectionally (positive only) or
bidirectionally (positive and negative) and
up to two voltage inputs for monitoring
battery banks
Low voltage disconnect
Over-current disconnect (circuit-breaker)
Measures voltage, current, power, battery
charge meter (Ah), energy meter (Wh) and
temperature
Operates at up to 60V and 60A of
continuous current (75A peak current) using
the internal shunt resistor
High current aluminum lug terminals
supporting up to 65A
If used with an external shunt resistor it
senses up to 150mV of voltage drop
allowing the use of high power 300A-600A
rated shunt resistors
•
•
•
•
•
•
•
•
Very low power consumption (see
Performance Parameters)
Bluetooth Smart (LE) radio with internal
antenna
8-pole terminal block for connecting to the
system that will be monitored
ABS plastic enclosure with mounting
flanges, completely enclosed in potting
compound
Measures only 3.0” x 1.55” x 0.75” (76mm x
39mm x 19mm) including the mounting
flanges.
Weatherproof
Can be monitored and configured using the
provided mobile device application
The measurement range can be configured
allowing it to achieve top performance with
a variety of shunt resistor
TYPICAL APPLICATIONS
•
•
•
•
•
Boats, RVs, small cabins
Solar systems, wind systems, renewable energy
Battery backup systems / battery operated equipment
Power inverters, electric vehicles
Monitoring of fleet vehicle battery
PINOUT / PIN DESCRIPTION
Figure 2. BT-DCPM Pinout
Pin
Name
Description
GROUND
DATA
PE
ES+
ES-
VS
V2
V+
IS-
10
IS+
System Ground
DO NOT CONNECT! (contact Thornwave Labs Inc. for more information)
Power Enable output - Open drain, active low output. Used to control a mechanical
or solid-state relay. Pin is pulled low (to ground) when active. The relay should be
connected between the power supply for the relay and this pin. The voltage at this
pin should not exceed 18V.
External Shunt connection (positive side – closest to the power source). When
using the internal current shunt connect this pin to ES- (pin 5)
External Shunt connection (negative side – farthest from the power source). When
using the internal current shunt connect this pin to ES+ (pin 4)
Optional power supply. Optionally, connect this pin to a power supply of no more
than 18V
Second monitored voltage. Used to monitor a second battery.
Main power. This is the main voltage that will be monitored. The device also draws
its power form this pin. If power is applied to Pin 6 (VS), the device will draw its
power from that instead of this pin.
Internal Shunt connection (negative side – farthest from the power source). Do not
connect if using an external shunt.
Internal Shunt connection (positive side – closest to the power source). Do not
connect if using an external shunt.
SPECIFICATIONS
Absolute Maximum Ratings 1,2
Maximum Voltage (V+, V2)
Maximum Current (using internal shunt)
Maximum Current (using external shunt)
+65V
60A cont. 75A peak
depends on external shunt
(300A – 600A max)
Maximum Input Sense Voltage (using external shunt –
between ES+ and ES-) - differential
Minimum Input Sense Voltage (ES+, ES-, IS+, IS-)
Maximum Input Sense Voltage (ES+, ES-, IS+, IS-)
Operating Temperature
Recommended Operating Conditions 3
Input Voltage (V+ to GND)
Current (using internal shunt IS+ / IS-)
Input Sense Voltage (using external shunt – between
ES+ and ES-)
Operating Temperature
1.
2.
3.
65V
-2V
+65V
-30ºC to +70ºC
Min
+9V
Max
+60V
60 A
180 mV/±80mV
-30ºC
+70ºC
Stresses greater than those listed under “Absolute Maximum Ratings” may cause permanent damage to the device.
Continuous operation at levels higher than those listed under “Recommended Operating Conditions” may cause permanent
damage to the device
All voltages are referenced to ground unless otherwise specified.
Performance Parameter
Measured voltage (V+, V2)
Measured voltage accuracy
Measured current (using internal shunt IS+, IS-)
Measured current accuracy (using internal shunt)
Internal current shunt resistance
Voltage sense input (using external shunt ES+ to ES-)
Current monitoring accuracy (using external shunt)
Minimum external current shunt resistance
Power (using internal shunt)
Power meter
Charge meter
Temperature
Current draw (current consumed by the device)
at 12V
at 24V
at 36V
at 48V
at 60V
Value
0 – 60V / ~8mV resolution
better than 0.5%
0 – 60A / ~8mA resolution
better than 1% - when calibrated
0.5 mOhm / ±1%
0 – 180mV / ~20µV resolution
depends on external shunt
resistor precision, typically better
than 1%
0.1 mOhm
max. 3600W
more than 1000 MWh
more than 1000 MAh
1°C / 1°F resolution
7.0 mA
7.3 mA
7.7 mA
8.0 mA
8.5 mA
COMPLIANCE STATEMENTS
FCC
ATTENTION: Changes or modifications not expressly approved by Thornwave Labs Inc could void the user's
authority to operate the equipment.
ATTENTION: This device complies with Part 15 of the FCC rules. Operation is subject to the following two
conditions: (1) this device may not cause harmful interference and (2) this device must accept any interference
received, including interference that may cause undesired operation.
ATTENTION: Cet appareil est conforme à la Partie 15 des règlements de la FCC. L'opération doit se conformer
aux deux conditions suivantes: (1) cet appareil ne peut causer d'interférences nuisibles et (2) cet appareil doit
accepter toute interférence reçue, y compris les interférences qui peuvent provoquer un fonctionnement
indésirable.
IC RSS-102 RF Exemption
This system has been evaluated for RF Exposure per RSS-102 and is in compliance with the limits specified by
Health Canada Safety Code 6.
L’exposition aux radiofréquences de ce système a été évaluée selon la norme RSS-102 et est jugée conforme
aux limites établies par le Code de sécurité 6 de Santé Canada.
IC RSS-Gen 8.4
This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the
following two conditions: (1) this device may not cause interference, and (2) this device must accept any
interference, including interference that may cause undesired operation of the device.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de
licence. L'exploitation est autorisée aux deux conditions suivantes: (1) l'appareil ne doit pas produire de
brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le
brouillage est susceptible d'en compromettre le fonctionnement.
SAFETY INSTRUCTIONS
Warning !
Read all the instructions and cautions before using the power meter.
Warning !
There are no serviceable parts or fuses inside the power meter! Do not disassemble or
attempt to repair! The unit operates with voltages up to 60V which can be deadly or cause
serious and permanent injury.
Warning !
Do not submerge under water or other liquids. The device is weatherproof but not
waterproof.
Warning !
The power meter is to be connected to DC circuits only, not exceeding 60V or 60A (using
the internal shunt). Failure to do so will result in equipment damage. Higher currents are
supported when using an external shunt resistor. Confirm that all connections are tight to avoid
excessive heating and sparks.
Warning !
Batteries are dangerous! Do not short-circuit a battery or the power meter. Batteries can
produce flammable and explosive gases and can generate very high currents that can lead to
serious consequences including explosion, fire, damage to equipment, personal injury and even
death. It is the user’s responsibility to operate the equipment in a safe manner. Do not charge
batteries in an enclosed environment unless allowed by the manufacturer of the battery.
FUNCTIONAL OVERVIEW
Device power. BT-DCPM is drawing its supply power from the V+ pin and using an internal voltage regulator it
creates an internal supply voltage of 9V. This internal supply voltage is available at the VS pin and should not be
used to supply any external load. Attempting to power external loads from the VS pin will damage the device. If
a power supply of maximum of 18V is available it is recommended to connect it to the VS pin. This will turn the
internal regulator off and improve efficiency. When the device is used to monitor 12V batteries, V+ and VS pins
can be wired together to the positive side of the 12V battery. For use in higher system voltages, the VS pin
should be left unconnected.
Internal current shunt. When using the internal current shunt, the ES+ and ES- pins should be wired together
using a wire bent in a U shape. The current to be monitored should be routed through the IS+ and IS- terminals.
An internal shunt resistor of 0.5mOhm is connected in between these two terminals. The aluminum, hex screw
terminal blocks (IS+ and IS-) can accept wires up to 6AWG in size. In order to minimize the voltage drop on wires
and connections, use the thickest wires that can support the required current. The common mode voltage of
IS+ and IS- can be in between -2V and +65V relative to ground, allowing the current shunt to be placed either
on the positive side of the circuit or on the ground wire (less common). Current flowing from IS+ to IS- will be
measured as a positive value and current from IS- to IS+ will be a negative measured value.
External current shunt. To monitor a large current or a very small current more accurately, an external current
shunt can be used. This method allows monitoring currents up to 300-600A with reasonable resolution or even
higher if resolution can be sacrificed. Using a higher current shunt resistor, currents in the milli-amp range can
be measured accurately. The external current shunt resistor should be connected to the ES+ and ES- pins. To
avoid noise the wires should be as short as possible. Twisting the sense wires can reduce noise even further.
Pins IS+ and IS- should be left unconnected. The common mode voltage of ES+ and ES- can be in between -2V
and +65V relative to ground, allowing the current shunt to be placed either on the positive side of the circuit or
on the ground wire (less common). Current flowing from IS+ to IS- will be measured as a positive value and
current from IS- to IS+ will be a negative measured value.
Operation. Once the device receives power it will start advertising its presence to other Bluetooth devices. Using
a cell-phone or tablet running the DCPM application (found on the App Store / Play Store) the user can scan for
BT-DCPM devices and connect to one of them (if multiple devices are present). Multiple BT-DCPM devices can
be distinguished after changing their name using the mobile app. This will be displayed by the application upon
scanning for Bluetooth devices. Once the mobile device is connected to a power monitor the application will
display all the electrical parameters and update them in real-time. Using the application menu, the user can
configure the device or reset the charge and power meters back to zero. The DC power meter will consume very
little current, allowing for continuous operation from batteries. The power monitor can operate in unidirectional
or bidirectional current mode. While operating in unidirectional current mode, the current can only be sensed
in one direction (from IS+/ES+ to IS-/ES-). In this case, the device is capable of higher dynamic range than in the
bidirectional current mode. In the bidirectional current mode, the power monitor can sense current in both
directions. The current from IS+/ES+ to IS-/ES- will show as a positive value while the reverse current (for
example recharging the battery) will be shown as a negative value.
Power relay control. BT-DCPM can control a power relay (either mechanical or solid-state) using the PE output
(terminal 6). When active, the PE pin is internally connected to ground. The relay should be connected between
the power supply for the relay (max 18V) and the PE pin. The low voltage disconnect function can be configured
and enabled using the mobile application.
Low voltage disconnect. When this mode is enabled and the battery voltage drops below a specified value, the
device disconnects the load, protecting the batteries from over-discharge. In order to disconnect the load, the
voltage has to be below the set threshold for an amount of time that can be configured. This feature helps in
situations where cranking an engine or a short high current load causes the battery voltage to momentarily
drop. The device will re-engage the power relay 10 seconds after the condition that caused it to disconnect is
removed.
Over-current disconnect. BT-DCPM can operate as a circuit breaker. When this mode is enabled and the
measured current increases above a user specified trip value, the device disconnects the load, protecting the
batteries and load from over-current. The device will re-engage the power relay 10 seconds after the condition
that caused it to disconnect is removed.
WARNING! Although BT-DCPM can disconnect power on over-current it should not be used to replace circuitbreakers. A properly rated circuit-breaker or fuse should be used to protect the load and the wiring!
Radio performance. The device contains an internal Bluetooth Smart (LE) radio operating in the 2.4GHz band
and an internal antenna. For best performance, the device should be installed in such a way to offer a path for
radio waves to reach it. Metal walls or enclosures can attenuate or completely shield the device. Installation on
non-metallic surfaces is preferred.
Configuration. The following parameters can be configured from the included mobile applications.
Connect Filter (ms): The time delay in milli-seconds used to re-engage the power relay after the condition that
caused the disconnect is removed (either low voltage or over-current).
LVD Disconnect Threshold: The voltage in volts below which the power relay will disconnect.
LVD Connect Threshold: The voltage in volts above which the power relay can re-engage (after the filter time
has passed). This must be higher than LVD Disconnect Threshold
OCD Trip Threshold: The current in amperes at which the power is disconnected.
OCD Filter (ms): The duration of time the current has to be above the trip value in order to disconnect. In order
to function as a circuit breaker this should be set to a very low value between 0ms .. 20ms.
Sense Resistor: The resistance value in milli-ohms of the shunt resistor used. By default it is set to 0.5mOhm
which is the internal shunt resistance.
Sense Voltage Range: The shunt resistor voltage drop range. This should be adjusted to be higher than the
maximum expected voltage drop.
Unidirectional (positive current only)
+180mV
+150mV
+120mV
+90mV
+60mV
+30mV
Bidirectional (positive and negative current)
±80mV
±60mV
±30mV
±15mV
±7.5mV
Configuration example. Let’s suppose a current of up to 400A needs to be measured bidirectionally. Deltec
manufactures a DC ammeter shunt of 500A / 50mV which can be purchased from Amazon.
Ohm’s law states:
V  I R
This means that the voltage drop on a resistor is equal to the current passing through that resistor multiplied
by the resistance value. Rearranging that equation, we get: R  . Using this we can calculate the resistance
of the Deltec shunt being:
0.05V (50 mV )
 0.0001Ohm  0.1mOhm
500 A
In order to properly configure BT-DCPM we set the Sense Resistor to 0.1mOhm and Sense Voltage Range to
±60mV since this is the next higher range available that can be used for measuring up to 50mV. Using the
±60mV range allows a current up to ±600A to be measured using the Deltec shunt but the 500A shunt rating
should not be exceeded.
Time keeping. BT-DCPM keeps track of time internally. Every time a mobile device connects, the DCPM date
and time will be updated using the system time provided by the mobile device.
10
WIRING DIAGRAM (using the internal current shunt)
Figure 3. Wiring diagram (internal shunt)
11
WIRING DIAGRAM (using an external current shunt)
Figure 4. Wiring diagram (external shunt)
12
DIMENSIONS
Figure 5. Dimensions (inch)
13
ORDERING
Part Number
BT-DCPM
Description
Bluetooth Smart DC Power Meter with low voltage and overcurrent disconnect
14
Current Revision: 1.03
Revision
Date
Revision Description
1.00
1.01
1.02
1.03
8/1/2017
8/7/2017
8/9/2017
7/17/2017
Initial preliminary version.
Added FCC/IC required warnings
Revised FCC/IC required warnings.
Added FCC required statement.
15

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FCC ID Filing: 2AM22-BTDCPM

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