Leviton A8911-23 Manuel utilisateur

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Manuel utilisateur

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High Density Pulse Input Module
Cat. No. A8911
Installation and Operation Manual
DI-002-A8911-20B
WEB VERSION
WEB VERSION
TABLE OF CONTENTS
1 Overview ................................................................................................................1
1.1 Features and Specifications ..............................................................................1
2 Installation Checklist .............................................................................................2
3 Electrical Connections ..........................................................................................3
3.1 Hardware Installation .........................................................................................3
4 Configuration .........................................................................................................5
5 Operation ................................................................................................................6
6 Troubleshooting ....................................................................................................7
7 Register Listing .....................................................................................................8
8 Register Functions ..............................................................................................10
9 A8911-23 Firmware update .................................................................................11
10 Mechanical Drawings ........................................................................................13
11 Warranty and Contact Information ....................................................................14
WEB VERSION
WARNING:
TO AVOID FIRE, SHOCK OR DEATH; TURN OFF POWER at circuit breaker or fuse and test that the
power is off before installing product or servicing current transformers.
TO AVOID FIRE, SHOCK OR DEATH; Look inside the meter and electrical panel for possible exposed
wire, broken wire, damaged components or loose connections.
• Make sure all tools used during installation have proper installation ratings.
Installations should be done in accordance with local codes and current National Electric Code
requirements, and performed by trained, qualified professionals.
Equipment used in a manner not specified by this document impairs the protection provided by
the equipment.
CAUTIONS:
Verify the model number and electrical specifications of the device being installed to confirm they are
appropriate for the intended electrical service (see Section 3).
• Consult local codes for any possible permits or inspections required before beginning electrical work.
Ensure the conduit for the installation is flexible and non-metallic. For outdoor applications conduit and
conduit fittings must be rated UL Type 4X for outdoor enclosures. Failure to use the appropriate conduit
impairs the degree of equipment protection.
PRODUCT APPLICATION LIMITATION:
Leviton products are not intended for use in critical applications such as nuclear facilities, human
implantable devices or life support. Leviton is not liable, in whole or in part, for any claims or damages
arising from such uses.
Leviton strongly believes in continuous improvement, therefore we must reserve the right to change
specifications and product offerings without notice. Where possible, we will substitute products with
equivalent functionality when necessary.
NOTICE
This product is not intended for life safety applications.
Do not install this product in hazardous or classified locations.
The installer is responsible for conformance to all applicable codes.
WEB VERSION
1
1 OVERVIEW
The A8911-23 is designed for pulse counting applications where large number of pulse output devices need
to be connected to a Modbus network. The A8911-23 will count contact closures on 23 separate inputs
and store the totalized pulse count internally using non-volatile memory. The pulse count totals are then
read using the RS485/Modbus protocol. Applications include reading gas/water/electric meters in common
building areas for energy information and reporting purposes.
1.1 Features and Specifications
Processor Arm7, field upgradeable firmware.
LED 23 input status LEDs (red), 2 Modbus TX/RX (yellow), 1 power/alive status. (green)
Protocols Modbus/RTU
Power Supply 9VDC to 30VDC, 200mA, Required (not included)
The unit is to be sourced by a NEC Class 2 power supply, or Listed ITE power
supply marked LPS and rated from 9 to 30Vdc, 200 mA minimum but not to
exceed 8A
Serial Port
1
RS-485 two wire, 19200 or 9600 baud. N81
Pulse Inputs
1
23 independent pulse count inputs.
Intended for use with isolated dry contact outputs.
Pulse rate/width user selectable to 10hz, 50hz or 100hz. Pulse rate option: 10hz
minimum pulse width 50ms Pulse rate option: 50hz, minimum pulse width 10ms
Pulse rate option: 100hz, minimum pulse width 5ms
Contact closure threshold 100 to 2.5k user selectable
Pulse count values are stored in non-volatile memory.
Isolation
2
: Pulse inputs, power input and RS485 are non-isolated.
Environmental Pollution Degree 2, Altitude up to 2000M.
For indoor and outdoor use when used in an appropriate enclosure.
The A8911-23 must be mounted inside a NEMA rated electrical enclosure for safety
and isolation requirements.
North America: Indoor, temperature -30º - +70ºc, 0 - 95% humidity,
non-condensing
3
Safety UL61010 Recognized
3
File: E320540 (Model A8911-23)
EMC FCC CFR 47 Part 15, Class A
EN 61000, EN 61326
Size 4.13” x 3.39” x 1.18” (105mm x 86mm x 30mm)
Mass 3.7 oz (105 g)
1
inputs are intended for low voltage NEC Class 2 or equivalent outputs.
2
if the product is used in a manner not specified by the manufacture, the protection provided by the
equipment may be impaired.
3
Devices manufactured before Nov 1, 2011 are rated to 0 ~ 50c, and are not UL recognized.
WEB VERSION
2 INSTALLATION CHECKLIST
2
The following components are required for a complete A8911-23 I/O module installation:
A8911-23 I/O module
Modbus/RTU master device such as an AcquiSuite™ A8812 server
Pulse output meter
Power supply: 24VDC typical. (9VDC to 30VDC ok)
Wire. Typically 18 to 24 gauge 3 for pulse meter connection.
2 wire, twisted pair with shield for Modbus/RS485 connection. (Belden 1120A or equivalent)
1
Optional: Termination resistor (120 ohm) for long RS485 runs over 200ft.
1
Wire connected to pulse meters inside high voltage panels should have an insulation rating in excess of
the service voltage. Consult a licensed electrician and local building codes for further requirements that
may apply.
WEB VERSION
3 ELECTRICAL CONNECTIONS
3.1 Hardware Installation
1. Mount the A8911-23 on a DIN-Rail or appropriate
mounting enclosure.
2. Attach the power supply to the input terminals on the
A8911-23 module.
3. Turn on the power supply. Confirm the green Alive LED starts
blinking. Turn off the power to the module.
4. Attach the RS485 +, - and shield wires to the A8911-23 module.
Attach the other end of the RS485 line to the Modbus master
device, such as an AcquiSuite. Be careful to observer polarity on
both ends of the RS485 connection. RS485 wiring runs should be
limited to 4000 ft.
3
A9811-23
+9 to +30VDC
GND
GND
NC
RS485 Shield
RS485 -
RS485 +
P23
Power
Supply
Twisted Pair
Shielded
WEB VERSION
4
3 ELECTRICAL CONNECTIONS
5. Set the Modbus address dipswitches and baud rate dipswitch. For more information on the switch
options, see the section below for configuration.
6. Turn on the power supply. Confirm the green Alive LED starts blinking. Also check the RS485
yellow LEDs.
If the yellow RX led is blinking, the A8911-23 is receiving Modbus traffic on the RS485 port.
If the yellow TX led is blinking, then the A8911-23 is receiving a Modbus query specifically addressed
to it and will respond to the query.
If you are using an AcquiSuite Data Acquisition Server, the A9811-23 should appear in the Modbus
device list after about 2 minutes. Click on the device, and select “Configure” to give the A8911-23 a
logical name. This will allow the AcquiSuite to begin logging data for the device.
7. With the power disconnected, attach the pulse input lines to the pulse terminals. Each pulse input
should have a GND and a P# terminal. If the pulse output device is polarity sensitive, attach the pulse
– terminal to the A8911-23 GND terminal, and the pulse + terminal to the A8911-23 P# terminal. The
A8911-23 provides 3-5 volts on the P# terminal for sensing. The remote pulse output device must not
supply voltage to the terminals.
Wiring runs to pulse input terminals should be kept as short as possible. Wiring runs longer than 200
ft should be avoided. Wiring should avoid proximity to sources of electrical noise such as running in
parallel to electrical cable, and VFD systems.
8. Power up the A8911-23. The Input LEDs for each connected input should now blink. The input LED will
be on when the contacts are closed.
WARNING: After wiring the A8911-23, remove all scraps of wire or foil shield from the electrical
panel. This could be dangerous if wire scraps come into contact with high voltage wires.
WEB VERSION
5
4 CONFIGURATION
Modbus Address: Before the A8911-23 can be used, you must set the Modbus
address of the A8911-23. This address must be unique among all Modbus
devices in the system. The A8911-23 supports address 1 through 127.
Select an address and set the DIP switches to match.
The sum of the value of the switches is the address. In the example to the right,
address 52 is set by placing switch 4, 16 and 32 to the on position.
Note: 4 + 16 + 32 = 52
Baud Rate: This option sets the serial port speed for the RS485 port. Set this
option to [OFF] for 19200. Set the switch to [ON] for 9600 baud.
Modbus
Address
19200/9600
on
64
32
16
8
4
2
1
WEB VERSION
5 OPERATION
6
The device should power up and be ready in a few seconds. The LEDs should blink in the following manner.
The green “Alive” LED should start to blink approximately once per second.
The yellow RS485 TX and RX LEDs will blink for local Modbus activity.
The red input status LEDs will blink when input contact closures are detected. Input status LEDs are
adjacent to the corresponding input screw terminals.
If the A8911-23 is attached to an AcquiSuite Data Acquisition Server, you will need to configure each pulse
input with a Name, Engineering Unit, and Multiplier.
WEB VERSION
6 TROUBLESHOOTING
7
Pulse count not incrementing:
Check the input LED for the specific input that is not working. The LED should blink when the pulse meter
closes the contact output. If it is not blinking, try bridging the input terminals with a short piece of wire to
confirm the LED comes on.
Try bridging the terminals at the other end of the pulse wiring run. This will confirm there are no breaks in
the wire.
Verify the pulse output device is operating.
Disconnect the A8911-23 input and use a hand held digital meter and measure resistance of the pulse
output device. Verify that the pulse output device is operational and the contact closure reads less than
1000 ohms when closed. For high resistance pulse devices such as intrinsic barriers, the “contact closure
threshold” register may need to be configured to a larger value. The default is 1k however up to 2.5k is
allowed. If using the AcquiSuite data acquisition server, use the advanced configuration page of the
A8911-23 in the Modbus/device list to set this option.
WEB VERSION
7 REGISTER LISTING
8
The A8911-23 responds to the following Modbus/RTU functions:
0x11 Report slave id.
0x03 read holding registers (multiple)
0x06 preset single register
All Modbus registers are read-only unless otherwise noted. Registers listed as “NV” are options that are
stored in non-volatile memory and will be preserved when power is removed from the device.
Modbus 40xxx registers (read registers)
Data points:
------- ------- ------- ------------------
offset point type desc
0 40001 UINT32 pulse count 1 MSW (NV Mem, all pulse counts)
1 40002 UINT32 pulse count 1 LSW
2 40003 UINT32 pulse count 2 MSW
3 40004 UINT32 pulse count 2 LSW
4 40005 UINT32 pulse count 3 MSW
5 40006 UINT32 pulse count 3 LSW
6 40007 UINT32 pulse count 4 MSW
7 40008 UINT32 pulse count 4 LSW
8 40009 UINT32 pulse count 5 MSW
9 40010 UINT32 pulse count 5 LSW
10 40011 UINT32 pulse count 6 MSW
11 40012 UINT32 pulse count 6 LSW
12 40013 UINT32 pulse count 7 MSW
13 40014 UINT32 pulse count 7 LSW
14 40015 UINT32 pulse count 8 MSW
15 40016 UINT32 pulse count 8 LSW
16 40017 UINT32 pulse count 9 MSW
17 40018 UINT32 pulse count 9 LSW
18 40019 UINT32 pulse count 10 MSW
19 40020 UINT32 pulse count 10 LSW
20 40021 UINT32 pulse count 11 MSW
21 40022 UINT32 pulse count 11 LSW
22 40023 UINT32 pulse count 12 MSW
23 40024 UINT32 pulse count 12 LSW
24 40025 UINT32 pulse count 13 MSW
25 40026 UINT32 pulse count 13 LSW
26 40027 UINT32 pulse count 14 MSW
27 40028 UINT32 pulse count 14 LSW
28 40029 UINT32 pulse count 15 MSW
29 40030 UINT32 pulse count 15 LSW
30 40031 UINT32 pulse count 16 MSW
31 40032 UINT32 pulse count 16 LSW
32 40033 UINT32 pulse count 17 MSW
33 40034 UINT32 pulse count 17 LSW
34 40035 UINT32 pulse count 18 MSW
35 40036 UINT32 pulse count 18 LSW
36 40037 UINT32 pulse count 19 MSW
37 40038 UINT32 pulse count 19 LSW
38 40039 UINT32 pulse count 20 MSW
39 40040 UINT32 pulse count 20 LSW
40 40041 UINT32 pulse count 21 MSW
41 40042 UINT32 pulse count 21 LSW
42 40043 UINT32 pulse count 22 MSW
43 40044 UINT32 pulse count 22 LSW
44 40045 UINT32 pulse count 23 MSW
45 40046 UINT32 pulse count 23 LSW
WEB VERSION
7 REGISTER LISTING
9
System information points:
------- ------- ------- ------------------
offset point type description
1000 41001 UINT16 Serial Number (bytes 1,2) (our serial number)
1001 41002 UINT16 Serial Number (bytes 3,4)
1002 41003 UINT16 Serial Number (bytes 5,6)
1003 41004 UINT16 firmware version major
1004 41005 UINT16 firmware version minor
1005 41006 UINT32 mfg date MSW
1006 41007 UINT32 mfg date LSW
1007 41008 UINT32 up time (seconds) MSW.
1008 41009 UINT32 up time (seconds) LSW.
1009 41010 UINT16 Our modbus address
1010 41011 UINT16 Hardware Version major (8911)
1011 41012 UINT16 Hardware Version minor. HighByte=pcb-rev(0=rev A, etc), lowbyte = part-
rev (0=rev A, etc)
1012 41013 UINT16 (NV/r/w) contact closure threshold in ohms, default 1000 = 1kohm. 100-
2550 ohms allowed.
1013 41014 UINT16 (NV/r/w) contact closure speed, pulse speed: 0=10hz/default, 1=50hz,
2=100hz
1014 41015 UINT16 (NV/r/w) Pulse KYZ flag bitmap. channels 1-16 0x01 = pulse1 kyz mode,
0x02 = p2, etc.
1015 41016 UINT16 (NV/r/w) Pulse KYZ flag bitmap. channels 17-23
1016 41017 UINT16 power supply voltage monitor. scale: x100
1017 41018 UINT16 pcb temperature monitor. scale: x100
1018 41019 UINT16 5V internal power supply voltage monitor. scale: x100
1019 41020 UINT16 RS485 baud rate. 2=9600, 3=19200.
1020 41021 UINT16 reason for reboot. 0x01=POR, 0x02=EXTR 0x04=WDTR 0x08=BODR,
0x8000=WDTOF
Modbus function 0x11 Slave ID response will report the following:
“Leviton, A8911-23, pulse counter, 23 channel”, id=47
WEB VERSION
8 REGISTER FUNCTIONS
10
Pulse Count: The pulse count is stored as an unsigned 32bit integer. This allows for 2^32 pulses
(4.2billion) to be counted before rollover. On Modbus systems that do not allow you to read 32bit values,
you can calculate the pulse count as follows:
count = (MSW * 65536) + LSW
or
count = (MSW << 16) | LSW [bit shift high order word by 16 bits and xor against low order word]
Pulse count registers accumulate a total number of pulses received on each pulse input. The pulse count
totals always increment and can not be cleared or set to an arbitrary value to prevent tampering. All pulse
count totals are stored in non- volatile memory to preserve counts during power failure. The unsigned 32 bit
counter values can accumulate up to 4.29 billion (2^32) pulses before rollover.
All 32 bit data point values are encoded in 2 Modbus registers (16bits each). Modbus master systems
should always query the A8911-23 using a single query to read an entire block of registers. Never use two
queries to read one register and then combine the two results into a single 32 bit value. Doing so will allow
the pulse count to increment in the middle of the two Modbus queries, and will cause intermittent data
readings that are incorrect.
EXAMPLE:
A pulse input has a count of 65534. This is represented as a 32 bit hex number 0x0000FFFE. The first
4 digits are the MSW register, the second 4 digits are the LSW register. The Modbus Master reads the
first (MSW) register and gets 0x0000. In between the two readings, the pulse input counts 2 more pulses,
making the total 65536 or 0x00010000 in hex. Next the Master reads the second (LSW) register and gets
0x0000. When the two registers are combined, the result is 0x00000000. The proper way to handle this
situation is to simply read both registers in a single Modbus query.
WEB VERSION
9 A8911-23 FIRMWARE UPDATE
11
From time to time, Leviton may release firmware updates with additional features and system changes.
To find out what firmware your A8911-23 has installed, read the firmware version register with a Modbus
utility, or use the “Advanced configuration” page in the AcquiSuite setup menu. Firmware update files may
be obtained from Leviton technical support.
The firmware update process requires an RS232 serial port and a windows computer to run the firmware
update utility. Before starting this process, verify your computer has a serial port available. You may need to
deactivate other software such as the palm pilot utility or ups monitor software. USB connected serial ports
may be used, however these are not as fast or reliable as standard computer serial ports and may fail to
upgrade the firmware correctly.
To update the firmware, use the following procedure.
1. Install the Philips LPC2000 software as provided by Leviton.
2. Remove power and DC load current from the A8911-23. Power can be disconnected by removing the
+24V wire from the screw terminal from the A8911-23 power connection.
WARNING: Disconnect power and lock-out all power sources during installation. DO NOT
CONNECT RS232 PORT WITH CURRENT INPUTS LIVE
3. Remove the plastic lid from the A8911-23 module. The plastic lid is held in place with two plastic clips,
one on each side.
4. Attach the A8911-23 to your computer with an RS232 serial cable. The A8911-23 programming
connector is the 9 pin RS232 connector on the top of the device.
5. Power up the power supply to the A8911-23. The Green Alive LED should light up and blink.
WEB VERSION
9 A8911-23 FIRMWARE UPDATE
12
6. Run the LPC2000 Flash Utility. The following screen will be displayed.
7. Set the following communications options:
COM1 or COM2 depending on your computer serial port. Use baud rate: 38400 or slower.
Check “Use DTR/RTS for Reset” XTAL Freq[kHz] = 14745
8. Click the “Read Device ID” button. The PartID and BootLoaderID fields will be shown if successful. Also,
the “Device” dropdown menu should switch to LPC2131. The bottom of the window will display “Read
Part ID Successfully.”
9. Click the “Filename” “...” button. A dialog box will appear. Locate and select the A8911-23 firmware
image file. In the example above, this is named “A8911-23_v1.07.hex”.
10. Click the “Erase” button. This will remove the existing firmware from the A8911-23 device.
11. Click the “Upload to Flash” button. The firmware update will start, and a blue progress bar will be
shown across the bottom of the screen. While the upload is in progress, the green Alive LED on the
A8911-23 will stop blinking and stay on solid.
12. When the update is complete, disconnect power from the A8911-23. Remove the RS232 serial cable.
13. Place the lid back on the body of the A8911-23. The lid should snap into place.
14. Re-attach any signal and data connections. Power up the A8911-23. The new firmware should now
operate. To confirm the new firmware is installed, use the AcquiSuite device details page, click the
“configure” button, and then the “Advanced” button. The firmware version number will be displayed on
the lower right side of the advanced details page.
WEB VERSION
10 MECHANICAL DRAWINGS
13
DIN-Rail (EN50022) mount package: Width 105mm (6 modules)
GND
P1
+24V
GND
NC
Shield
485 -
485 +
GND
P23
GND
P22
GND
P21
GND
P20
GND
P19
GND
P18
GND
P17
GND
P16
GND
P15
GND
P14
GND
P2
P2P3P4P5P6P7P8P9P10P11P12
GND
P3
GND
P4
GND
P5
GND
P6
GND
P7
GND
P8
GND
P9
GND
P10
GND
P11
GND
P12
P1
Alive
485 TX
485 RX
P23P22P21P20P19P18P17P16P15
P13
P14
GND
P13
3.875 in
Mounting holes
4.13 in
105mm
1.69in
43mm
3.250in
Mounting holes
3.39in
86mm
WEB VERSION
11 WARRANTY AND CONTACT INFORMATION
14
FCC STATEMENT:
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15
of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the
equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency
energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio
communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case
the user will be required to correct the interference at his own expense.
Any changes or modifications not expressly approved by Leviton Manufacturing Co., could void the user’s authority to
operate the equipment.
FCC SUPPLIERS DECLARATION OF CONFORMITY (SDOC):
Model A8911 manufactured by Leviton Manufacturing Co., Inc., 201 North Service Road, Melville, NY 11747, www.
leviton.com. 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.
IC STATEMENT:
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.
TRADEMARK DISCLAIMER:
Use herein of third party trademarks, service marks, trade names, brand names and/or product names are for
informational purposes only, are/may be the trademarks of their respective owners; such use is not meant to imply
affiliation, sponsorship, or endorsement. Modbus is a U.S. registered trademark of Schneider Electric USA, Inc.
Leviton Manufacturing Co., Inc.
201 North Service Road, Melville, NY 11747
Visit Leviton’s Web site at http://www.leviton.com
© 2021 Leviton Manufacturing Co., Inc. All rights reserved.
Specifications and price subject to change at any time without notice.
FOR CANADA ONLY
For warranty information and/or product returns, residents of Canada should contact Leviton in writing at Leviton
Manufacturing of Canada ULC to the attention of the Quality Assurance Department, 165 Hymus Blvd, Pointe-Claire
(Quebec), Canada H9R 1E9 or by telephone at 1 800 405-5320.
For Technical Assistance Call: 1-800-824-3005 (USA Only) or 1-800-405-5320 (Canada Only) www.leviton.com
LIMITED 5 YEAR WARRANTY AND EXCLUSIONS
Leviton warrants to the original consumer purchaser and not for the benefit of anyone else that this product at the time of its sale by
Leviton is free of defects in materials and workmanship under normal and proper use for five years from the purchase date. Leviton’s
only obligation is to correct such defects by repair or replacement, at its option. For details visit www.leviton.com or call 1-800-824-
3005. This warranty excludes and there is disclaimed liability for labor for removal of this product or reinstallation. This warranty is void
if this product is installed improperly or in an improper environment, overloaded, misused, opened, abused, or altered in any manner,
or is not used under normal operating conditions or not in accordance with any labels or instructions. There are no other or implied
warranties of any kind, including merchantability and fitness for a particular purpose, but if any implied warranty is required
by the applicable jurisdiction, the duration of any such implied warranty, including merchantability and fitness for a particular purpose,
is limited to five years. Leviton is not liable for incidental, indirect, special, or consequential damages, including without
limitation, damage to, or loss of use of, any equipment, lost sales or profits or delay or failure to perform this warranty
obligation. The remedies provided herein are the exclusive remedies under this warranty, whether based on contract, tort or otherwise.
WEB VERSION
1515
Module à haute densité d’entrées d’impulsions
No de cat. A8911
Directives d’installation et mode d’emploi
WEB VERSION
16
TABLE DES MATIÈRES
1 Survol ...................................................................................................................18
1.1 Caractéristiques et fonctions ...........................................................................18
2 Éléments requis pour l’installation ....................................................................19
3 Raccords ..............................................................................................................20
3.1 Installation du matériel .....................................................................................20
4 Configuration .......................................................................................................22
5 Fonctionnement ...................................................................................................23
6 Diagnostic des anomalies ..................................................................................24
7 Liste des registres ...............................................................................................25
8 Fonctions des registres ......................................................................................27
9 Mise à niveau du micrologiciel ...........................................................................28
10 Schémas dimensionnels ...................................................................................30
11 Garantie et coordonnées ...................................................................................31
WEB VERSION
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Leviton A8911-23 Manuel utilisateur

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