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GWC 1. SUMMARY INTRODUCTION ............................................................................................................ 5 1.1. Automation system components ................................................................................ 5 1.2. GWC: description....................................................................................................... 6 1.3. GWC hardware .......................................................................................................... 7 1.4. Operating limits, risks and warnings ........................................................................... 8 1.5. Limited Warranty........................................................................................................ 9 1.6. Symbols ................................................................................................................... 10 Specifications ............................................................................................................... 11 2.1. Mechanical specs (units: mm) .................................................................................. 11 2.2. Electrical specs ........................................................................................................ 13 2.2.1. Power supply characteristics ............................................................................. 13 2.2.2. I/O electrical specifications................................................................................ 14 2.2.3. CAN Bus CANOpen Interface ........................................................................ 16 2.2.4. CAN Bus DeviceNet Interface ........................................................................ 17 2.2.5. PROFIBUS DP Interface ................................................................................... 18 2.2.6. RS232/RS485 Interface .................................................................................... 19 CONTROLLER INSTALLATION ................................................................................... 20 3.1. Package removal, inspection and storage ................................................................ 20 3.2. User parameters: dip-switches setup ....................................................................... 21 3.3. Setup and use the controller safely .......................................................................... 22 3.4. Device fitting ............................................................................................................ 23 3.5. GWC wiring.............................................................................................................. 25 3.5.1. CN1: Connection to protection ground (EG) ...................................................... 27 3.5.2. CN1: Connection to DC power supply (PS) ....................................................... 28 3.5.3. CN2: CanOpen connection #1........................................................................... 30 3.5.4. CN3: DeviceNet (or CanOpen #2) connection ................................................... 31 3.5.5. CN4 CN5: RS232 and RS485 connections #1 #2.............................................. 33 3.5.6. CN6: Digital inputs connection .......................................................................... 35 3.5.7. CN7: Digital outputs connection ........................................................................ 36 3.5.8. CN8 : PROFIBUS DP interface connection ....................................................... 37 3.5.9. CN12 CN13: TRASPONDERs connection ........................................................ 39 Controller start up ......................................................................................................... 40 4.1. Check the installation ............................................................................................... 40 4.2. Maintenance ............................................................................................................ 40 4.3. Signals and working conditions ................................................................................ 40 Toubleshooting ........................................................................................................ 41 4.4. GWC versions and specifications.................................................................................. 43 5.1. Device coding and order information ........................................................................ 43 5.2. Available GWCnnnn versions................................................................................... 43 Technical specifications ........................................................................................... 44 5.3. APPENDIX ................................................................................................................... 45 Connections............................................................................................................. 45 Power supply ........................................................................................................... 48 A.1 A.2 2. 3. 4. 5. A. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 3 of 49 Note :
Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 4 of 49 1. INTRODUCTION This section introduces main features of GWCnnnn product as part of an industrial automation system. 1.1. Automation system components RS232/485 CAN#2 PLC Profibus DeviceNet RS232/485 Power Supply Trasponder #1 GWC Trasponder #2 CAN#1 8 Digital Input 8 Digital Output i Please refer to section A.2 for details related to power supply. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 5 of 49 1.2. GWC: description GWC system has been designed to accomplish two main functions:
Communication protocol converter/adapter (gateway) Programmable I/O device The communication protocol converter/adapter function allows different field buses such as CanOpen, DeviceNet, ProfiBus, ModeBus, and in the future Ethernet, to be handled/interfaced. The programmable I/O device function allows user to write an automation procedure that will be executed by the GWC device. Such automation procedure can interface both digital and analog I/Os available on the GWC device. Both functions could coexist on the same device, allowing user a whole range of possibilities to automate an industrial process. GWC device is designed to guarantee enforceability of EN61800-3 and 60204-1 rules: to satisfy such rules user must guarantee connections characteristics compliant with EMC immunity and emission, such as a ground connection, a correct installation and a power supply filter. S0 Modbus Slave S1 Modbus Slave DeviceNET Slave Profibus Slave Boot Program DLL I/O I/O Configuration Parameters DLL Gateway Object Dictionary DLL CANopen Requests Queue Handling DLL Tripos / Codesys Tripos / Codesys User Application CAN # 2:
CAN # 1:
DLL CANopen Master #2 DLL CANopen Master #1 CANopen Slave Device
# 1 CANopen Slave Device
# 126 CANopen Slave Device
# 1 CANopen Slave Device
# 126 Figure 1: GWCxxxx functional block diagram Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 6 of 49 1.3. GWC hardware Figure 2 shows the hardware block diagram of a GWC device. i This manual holds information about installation, start-up and service of a GWC device. Please note that some function could be missing, depending on the GWC device version. GW00 : Main Board Single DC Input Supply Isolated DC to DC Converter CN1 Controller User Dip-Switches 7segm. Display 1 4 5 6 Ext. Flash Memory
(up to 2Mbytes) CanOpen#1 Interface
(1) CN2 CanOpen#2 (5A) or DeviceNet (5B) Interface (1) CN3 ProfiBus Interface
(1) CN8 2 7 8 Ext. Fast SRAM Memory
(up to 1Mbytes) ModBus#1 RS232/485 Interface (1) CN4 ModBus#2 RS232/485 Interface (1) CN5 Ext. EEprom Memory
(up to 32Kbytes) 3 9 Fast PNP Digital Inputs
(8) CN6 10 Source (PNP) Digital Outputs
(8) CN7 11 12 TRASPONDER#1 TRASPONDER#2 Interface
(1) CN12 Interface
(1) CN13 Figure 2: GWCnnnn device hardware block diagram Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 7 of 49 1.4. Operating limits, risks and warnings
- Installation of a GWC device must comply with information reported in this manual.
- TECNOLOGIX is not responsible for damages and injuries caused by an improper use or by a not compliant use of a GWC device.
- GWC device is intended for installation in an electrical panel; it is user responsibility to guarantee appropriate working conditions to the GWC device.
- This manual intended audience is GWC device installer personnel; it is not intended to be support documentation for GWC device end users. Attention Only qualified Electro-personnel A safe and effective installation is possible only when it is done in accordance with IEC 1000, EN 60204-1, EN 61800-3 standards, and the safety legislation in the end user installation field. When performing insulation test on a system including a GWC device, please be sure to do not exceed GWC device maximum insulation voltages. GWC device could cause environmental damages if not disposed properly. i Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 8 of 49 1.5. Limited Warranty TECNOLOGIX s.r.l., ("TECNOLOGIX") warrants to the buyer ("Buyer") of a TECNOLOGIX motor or driver (the "Product") as follows: when properly used and installed, the product will be free from substantial defects in material and workmanship, and will substantially conform to buyer specifications for the Warranty Period of 1 year. The Warranty commences on the manufacturing date printed on the Product label. In no cases TECNOLOGIX will be responsible, during the Warranty Period, of a Product not properly stored, installed, used or serviced. In no cases TECNOLOGIX will be responsible, during the Warranty Period, of a Product modified, setup or serviced without written authorization by others. TECNOLOGIX responsibility is limited to service (or replacement) of any manufactured product, in whole or in part, that will result defective due to materials or workmanship, according to TECNOLOGIX warranty conditions. The content of this manual is updated to its printing date. TECNOLOGIX reserves the right to modify or change its product to improve their performances without any notice or change to this manual. TECNOLOGIX does not recommend usage of its products in life support application or in any case in which a fault can could threaten life of safety of persons or things. If Buyer will use TECNOLOGIX products in this kind of application it will be the sole responsible of such use. In such cases TECNOLOGIX will reserve the right to ask the Buyer for compensation of all caused damages, material and immaterial. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 9 of 49 1.6. Symbols Symbols used in this manual :
Danger Warning Caution Used when user life or health could be exposed to a potential danger or when a potential damage to devices or materials are possible. Attention Special instruction for a safe and effecient installation and use Information Used to highlight important additional information An essential element to fulfil limits specified by EMC guidelines is to be compliant with EMC installation rules. i EMC Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 10 of 49 2. Specifications 2.1. Mechanical specs (units: mm) Wall mount VISTA DA SOPRA TOP VIEW 5 1 5 1 3 1 CN8 PRO FIBUS 1 EARTH 2 n .c . 3 PROFI_ H 4 5 0 D 6 +5 D 7 n .c . 8 PROFI_ L 9 NRTS PRTS n .c . Rx D1 Tx D1 CN4 SERIAL#1 1 2 3 4 n .c . 5 6 7 8 9 0 C
+RX1
+TX1
-RX1
-TX1 9 6 6 9 6 9 5 1 1 5 1 5 CN2 CanO pen# 1 CN3 De v ice Ne t CAN1_ -V CAN1_ L EARTH 1 2 3 4 5 DNET_ PS-
DNET_ L DNET_ SHLD 1 2 3 4 5 CN1 Vdc INPUT 1 2 3
+V G ND EARTH CN6 INPUTS 1 IN-0 2 IN-1 3 IN-2 4 IN-3 5 IN-4 6 IN-5 7 IN-6 8 IN-7 9 VSS CN7 O UTPUTS O UT-0 1 2 O UT-1 3 O UT-2 4 O UT-3 5 O UT-4 6 O UT-5 7 O UT-6 8 O UT-7 9 VO UT 1 0 VSS 1 1 0 1 9 CN12 CN1 3 1 2 3 TRS1 -TX TRS1 -RX G ND 3 1 1 2 3 3 TRS2 -TX TRS2 -RX G ND 1 CN5 SERIAL#2 1 n .c . 2 Rx D2 3 Tx D2 4 n .c . 5 0 C 6 +RX2 7
+TX2 8 -RX2 9
-TX2
S.N.:
PASS P ower supply .....:
24 Vd c / 800m A Max Operating temperature .............:
0 50 C Humidity range ...........................................................:
10 90 % NOT CONDENS ING Digital Inputs .........................................................:
24 Vd c (see m an u al) / 20 mA each Digital Output .............................................................................:
24 V d c / 500 mA each SEE MANUAL FOR DETAILS D O N O T R E M O V E C O V E R S R E F E R S E R V I C I N G T O Q U A LI F I E D T E C H N I C I A N VISTA LATERALE SIDE VIEW FRONT VIEW VISTA FRONTALE BOTTOM VIEW VISTA DA SOTTO Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 11 of 49 To mount on DIN Omega guide CN8 PROFIBUS 1 EA RT H 2 n.c. 3 PROFI_H 4 PRTS 5 0D 6
+5D 7 n.c. 8 PROFI_L 9 NRTS CN4 SERIAL#1 1 2 3 4 5 6 7 8 9 n.c. RxD1 T xD1 n.c. 0C
+RX 1
+T X 1
-RX1
-T X1 CN5 SERIAL#2 1 2 3 4 5 6 7 8 9 n.c. RxD2 T xD2 n.c. 0C
+RX 2
+T X 2
-RX2
-T X2 5 1 1 5 1 5 9 6 6 9 6 9 5 1 5 1 3 1 CN2 CanOpen#1 1 CAN1_-V 2 CAN1_L 3 EARTH 4 5 CN3 DeviceNet 1 2 3 4 5 DNET_PS-
DNET_L DNET_SHLD CN1 Vdc INPUT 1 2 3
+V GND EARTH CN7 OUTPUTS OUT-0 1 OUT-1 2 OUT-2 3 4 OUT-3 OUT-4 5 OUT-5 6 OUT-6 7 8 OUT-7 9 VOUT VSS 10 CN6 INPUTS IN-0 1 IN-1 2 IN-2 3 4 IN-3 IN-4 5 IN-5 6 IN-6 7 8 IN-7 9 VSS CN12 CN13 1 2 3 TRS1-TX TRS1-RX GND 1 2 3 TRS2-TX TRS2-RX GND 3 1 3 1 1 10 1 9
S .N.:
PASS Power supply .....:
24 Vdc / 800mA Max Operating temperature .............:
0 50 C Humidity range ...........................................................:
10 90 % NOT CONDENSING Digital Inputs .........................................................:
Digital Output .............................................................................:
24 Vdc (see manual) / 20 mA each 24 Vdc / 500 mA each SEE MANUAL FOR DETAILS DO NO T REM O VE CO VERS REFER SERVICING TO Q UALI FIED TECHNICIAN SIDE VIEW VISTA LATERALE VISTA POSTERIORE BACK VIEW GWC device can be installed in 3 different ways:
a) Narrow side wall mount;
b) Wide side wall mount;
c) DIN U guide mount (back clips on request) i To install the device, please use:
#2 or #4 MA4 screws and washers for type a) or type b) mount No screws are needed for type c) mount Dimensions Weight 194(H) x 45(W) x 120(D) mm 380g (w/o metal box) 480g (w/ metal box) 800g (w/ metal box and expansion board) IP 20 from - 25 C to +55 C from 5 to 50 C from 5% to 85% non condensing 1000 m s.l. Protection class Storage temperatures Working temperatures Max working altitude Humidity Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 12 of 49 2.2. Electrical specs Electrical tolerance specifications satisfy EN 60204 standards, if not stated elsewhere. Some product characteristics depend upon product version. i 2.2.1. Power supply characteristics Please refer to chapter 5 and Appendix A for current product version power supply specifications. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 13 of 49 2.2.2. I/O electrical specifications Digital inputs opto-insulated, 200kHz bandwidth, 24Vdc PNP/Push-Pull (5Vdc upon request). Digital inputs connection schema
+Input
+Input R1 R2 VSS VSS DZ VSS R3 1 2 3 4 n.c. VCC VEE n.c. 8 7 6 5 To avoid damages to input circuitry, please do not exceed minimum and maximum ratings reported in the following table:
Digital input Nominal voltage 5 Vdc 5%
24 Vdc 20%
fMAX Protections Limits Max. Min. Max. Min. Logical state 0 UL V 1.5 0 ND ND 200kHz Protected against polarity inversion Logical state 1 IH UH mA V 17 5 2 3 7 12 IL mA ND ND ND ND 19.2 28.8 i The external device connected to the GWC should have a dedicated power supply. Digital inputs electrical connection Depending upon external device output type, please adopt the most appropriate electrical connection schema between those reported hereafter. PNP source VDD
+Input
+Input R1 R2 connessione PNP source User Device VSS VSS R3 DZ VSS VSS VSS 1 2 3 4 Opto n.c. n.c. VCC VEE 8 7 6 5 Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 14 of 49 Push-Pull source VDD
+Input
+Input R1 R2 connessione Push-pull source User Device VSS VSS VSS VSS R3 DZ VSS 1 2 3 4 Opto n.c. n.c. VCC VEE 8 7 6 5 24Vdc PNP opto-insulated, short circuit protected, digital output. Specifiche elettriche di uscita Nominal current (logic state 1) Max current (logic state 1) Available outputs Output voltage (logic state 1) Drift current (logic state 0) Nominal voltage Minimum output voltage Maximum output voltage Tipo Maximum output frequency Protections Overcurrent/short circuit threshold In (A) Max (A) n. Max (V) Max (A) Vnom Vmin Vmax PNP f I (over-current) Overcurrent/short circuit intervention time tshortMAX 0.5 0.7 8 3 2 24Vdc 19Vdc 28.8Vdc current source 1kHz Short circuit
> 0.11A min
= 0.22A max 100s
@Vout = 30Vdc
@RL = 0
+Input
+Output VSS VSS VOUT Output Driver VSS VOUT 6 4 R2 IO910 R1 TLP180 1 3 Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 15 of 49 2.2.3. CAN Bus CANOpen Interface Introduction CAN Bus interface allows a multipoint connection according to ISO 11898 standard. The interface is insulated and it is powered by an on board insulated DC/DC converter, so no external power source is needed. i Please refer to section 5 for information about the available controller. Please refer to software manual for information related to how CAN Bus interface operates. CANbus network connection Node 2 Node Node 3 n-1 GWC00 1 I d L Node n Parameters Bus length Branch length Distance between adjacent nodes Network parameters Symbol in figure Unit L I D M M M Value Min. Nom. Max. 40 0 0 0.1 0.3 40 Conditions Bit rate:
1Mbit/sec Cable length
< 25m
< 50m
< 100m
< 250m
< 500m
< 1000m
< 2500m Baudrate [kbit/s]
1000 800 500 250 125 50 20 Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 16 of 49 2.2.4. CAN Bus DeviceNet Interface Introduction CAN Bus interface allows a multipoint connection according to ISO 11898 standard. The interface is insulated and it is powered by an on board insulated DC/DC converter, so no external power source is needed. i Please refer to section 5 for information about the available controller. Please refer to software manual for information related to how CAN Bus interface operates. CANbus network connection Node 2 Node Node 3 n-1 GWC00 1 I d L Node n Parameters Bus length Branch length Distance between adjacent nodes Network parameters Symbol in figure Unit L I D M M M Value Min. Nom. Max. 40 0 0 0.1 0.3 40 Conditions Bit rate:
1Mbit/sec Cable length
< 25m
< 50m
< 100m
< 250m
< 500m
< 1000m
< 2500m Baudrate [kbit/s]
1000 800 500 250 125 50 20 Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 17 of 49 2.2.5. PROFIBUS DP Interface Introduction PROFIBUS DP interface @todo The interface is insulated and it is powered by an on board insulated DC/DC converter, so no external power source is needed. i Please refer to section 5 for information about the available controller. Please refer to software manual for information related to how serial interface operates. Cabling requirements Please use a 0.5mm2 (#20 AWG) or a 0.25mm2 (#23AWG) twisted pair for PROFIBUS DP interface connection Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 18 of 49 2.2.6. RS232/RS485 Interface Introduction RS232 allows a point-to-point link, whilst the RS485 allows a multipoint link, according to EIA/TIA232E CCIT V.28 e RS-485 CCITT V.11 X.27 standards. The interface is insulated and it is powered by an on board insulated DC/DC converter, so no external power source is needed. i Please refer to section 5 for information about the available controller. Please refer to software manual for information related to how serial interface operates. Cabling requirements Please use a 0.5mm2 (#20 AWG) or a 0.25mm2 (#23AWG) twisted pair for RS232/RS485 interface connection Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 19 of 49 3. CONTROLLER INSTALLATION This section describes how to install the controller (a.k.a. GWC device). Main activities are:
i Remove external package and visually inspect the provided device;
User parameters setup;
Setup and use of the controller safely;
Controller mounting;
Controller connection;
Please refer to system diagram in section 1.3. 3.1. Package removal, inspection and storage Please verify that controller package contains all ordered parts; the label on the controller metal box should report the serial number, the version, and manufacture date. Please inspect the controller: each problem caused by a not appropriate handling/delivering must be to transporter. immediately submitted Please store the controller in a place compliant with specified requirements. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 20 of 49 3.2. User parameters: dip-switches setup Locating dip-switches DIP1 contacts can be used to perform some user setup, such as:
CANBus node id setup CANBus baudrate setup User functions setup DIP1 contacts are accessible from front side of the GWC device. Dip-switches functions are defined by software; please refer to the Software Manual for detailed information Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 21 of 49 3.3. Setup and use the controller safely Guide GWC device should be installed only by qualified personnel who are fully familiar with the content of this manual. Setup instruction should be followed and approved and any doubt about them should be clarified in advance with GWC device supplier before any use. i In no case TECNOLOGIX will be chargeable for direct or indirect damages caused by an improper installation, setup, use or unauthorized modification of the GWC device. To avoid personal damages or injury while working with the GWC device, please:
do not power on the GWC device if the shell is not yet connected to PE protection ground (see appropriate connection point on CN1 connector). Verify that PE protection ground impedance is compliant with local security laws. do not connect anything directly to internal circuitry. avoid connection or disconnecting anything while the GWC device is powered on. Please disconnect power before any setup or service operation. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 22 of 49 3.4. Device fitting Environment The environment where the GWC device will fit should be clean, with no corrosive vapours, gases, or liquid. Please avoid device fitting in places where vapours or humidity should condense. By fitting the GWC device into a cabinet, please be sure that the air flow or the cooling system should be sufficient to keep GWC device temperature below its maximum temperature ratings. Current laws on safety must be considered as a design requirement for the device installation. Installation guide Device installation should satisfy at least following requirements:
Keep device vertical;
Avoid excessive vibrations or mechanical shocks;
Leave enough free room to allow air flows on device top and bottom Cooling Device cooling is guaranteed by its metal box surfaces; please optimize thermal flow between those surfaces and the environment so that internal temperature is always kept below its maximum temperature ratings. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 23 of 49 Minimum distances 1 3 1 5 1 5 T U P N I c d V 1 N C t e N e c v e D i 3 N C 1
n e p O n a C 2 N C H T R A E D N G V
1 2 3 D L H S _ T E N D
S P _ T E N D L _ T E N D 1 542 3 V
_ 1 N A C L _ 1 N A C H T R A E 1 2 3 54 9 1 0 1 1
S S A P
. N S
. S T U P N I 6 N C 0
N I 1
N I 2
N I 3
N I 4
N I 5
N I 6
N I 7
N I S S V 98765421 3 S T U P T U O 7 N C 0
T U O 1
T U O 2
T U O 3
T U O 4
T U O 5
T U O 6
T U O 7
T U O T U O V 98765421 3 S S V 0 1 X T
2 S R T X R
2 S R T D N G 1 1 2 3 3 X T
1 S R T X R
1 S R T D N G 1 2 31 3 3 1 N C 2 1 N C S U B I F O R P 8 N C I H _ F O R P S T R P H T R A E
. c
. n I L _ F O R P D 5
D 0
. c
. n 1 2 34 5 6 7 8 S T R N 4 N 9 C 1
L A R E S I 1 D x R 1 D x T
. c
. n 1 X R
1 X T
1 X R
1 X T
. c
. n C 0 321 4 5 6 987 2
L A R E S I 5 N C 2 D x R 2 D x T
. c
. n
. c
. n C 0 2 X R
2 X T
2 X R
2 X T
1 2 3 4 5 6 7 89 5 1 1 5 1 5 9 6 6 9 6 9 I I N A C N H C E T D E I F I I L A U Q O T G N C V R E S R E F E R I I S L A T E D R O F L A U N A M E E S S R E V O C E V O M E R T O N O D
C 0 5
0
. e r u t a r e p m e t g n i t a r e p O x a M A m 0 0 8
c d V 4 2 l
. y p p u s r e w o P I G N S N E D N O C T O N
0 9
0 1
. e g n a r y t i d m u H i h c a e A m 0 0 5
c d V 4 2 h c a e A m 0 2
) l a u n a m e e s
c d V 4 2
. t u p t u O l a t i g D i
. s t u p n I l a t i g D i Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 24 of 49 3.5. GWC wiring GWC available connectors and possible wiring:
DC Input Supply + Protection Ground PE CanOpen #1 DeviceNet or CanOpen #2 RS232/485#1 RS232/485#2 Digital Inputs Digital Outputs ProfiBus CN1 CN2 CN3 CN4 CN5 CN6 CN7 CN8 CN12 Trasponder#1 CN13 Trasponder#2
(*)features depending on specific GWC device version Connectors location Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 25 of 49 Wiring is specific for a given application EMC Wiring rules and protection ground connection and shielding techniques should be appropriate for most applications. A good noise immunity could be obtained by twisting and shielding electric cables. Further improvements could be obtained by separating signal and power lines. Local lows on electrical safety, special working conditions and specific cabling standards should have precedence on information reported in this manual. Connection diagram Trafo EMC filter Protections Twisted wires
PS
M a i n s PE RS232/485, CANopen, DeviceNet, ProfiBus I/O Trasponders EG RS CAN Profi EG I/O EG Trasp. EG Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 26 of 49 3.5.1. CN1: Connection to protection ground (EG) Connect EG terminal to the protection ground PE prior any other connection. Wiring requirements Please use a wire having 0.5mm2 or greater section (#21 AWG) to connect EG terminal. Such wire should have a section equal or greater than power supply wires section. EG terminal wiring should meet industrial cabling standards locally applicable Earth Ground EG terminal is a PHOENIX COMBICON 1757255 3-poles male connector EG terminal is a PHOENIX COMBICON 1757255 3-poles male connector Phoenix Combicon 1757022 3-poles female 5.08 mm 1 2 3 EG To PE To CN1 Input V+
V-
EARTH Pin CN1.1 CN1.2 CN1.3 Description DC power supply(+) DC power supply reference (-) Earth Ground Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 27 of 49 3.5.2. CN1: Connection to DC power supply (PS) Introduction PS connector allows wiring GWC device to a DC power supply source. PS connector is a PHOENIX COMBICON 1757255 3-poles male connector Phoenix Combicon 1757022 3-poles female 5.08 mm V+
V-
to DC bus 0.5 mm2
(#21 AWG) to CN1 1 V+
2 V-
3 EG Earth EG and V- terminals are not internally connected; anyway they are dynamically linked by a parallel RC circuit (R=1M, C=2.2nF) Please do not solder wire ends and then insert them in the connector;
soldering may deteriorate and loss of electrical connection. then cause a Connection diagram Mains switch EMC Filter Secondary switch M a i n s Trafo Protections C Discharge Resistor Twisted wires
PS EG Surge suppressors PE Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 28 of 49 i Please refer to section A.2 for further information about DC power supply sizing. Protections Protections should be realized by mean of a delay fuse or an automatic protection switch. Sizing of those devices depends upon current sunk by connected DC loads. Dissect mains from transformer primary circuit. Power supply must not exceed connected loads allowed range. i Please refer to section 5 for further information about your specific GWC device power supply allowed range. Wiring requirements Please use a wire having 0.5mm2 or greater section (#21 AWG) to connect V+ and V- terminals. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 29 of 49 3.5.3. CN2: CanOpen connection #1 Can Bus CN2 is a PHOENIX mini-COMBICON 1803303 5-poles male connector. Phoenix mini-combicon 1803604 5-poles female 3.81m 5 N.C. 4 CAN_H 3 Earth 2 CAN_L 1 0_CAN i Connection table CAN_H CAN_L 0_CAN Please refer to software manual for further information about how GWC device works when in CAN bus mode Signal name Pin Function 0_CAN CAN_L Earth CAN_H N.C. CN2.1 CN2.2 CN2.3 CN2.4 CN2.5 Can_Ground CAN_L signal Can_ Shield CAN_H signal N.C. Wiring requirements Please use twisted wires having 0.5mm2 (#20AWG) or 0.25mm2
(#23AWG) section for CAN bus connection. CANBus network schema Please note that the 1st and the last node in the network must have a 120 ending resistor. CAN_Ground connection is an option. CAN_H CAN_H NODE #1 120R CAN_L CAN_L CAN_V+
CAN_V+
CAN_Ground CAN_Ground 100R 100R 100R CAN_Ground CAN_Ground CAN_H CAN_H CAN_V+
CAN_V+
CAN_L CAN_L NODE #2 CAN_H CAN_H 120R NODE #n CAN_L CAN_L CAN_V+
CAN_V+
CAN_Ground CAN_Ground Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 30 of 49 3.5.4. CN3: DeviceNet (or CanOpen #2) connection Can Bus CN3 is a PHOENIX mini-COMBICON 1803303 5-poles male connector. Phoenix mini-combicon 1803604 5-poles female 3.81m 5 DNET_V+
4 DNET_H 3 DNET_SLD 2 DNET_L 1 DNET_V-
i i Connection table DNET_V+
DNET_H DNET_L DNET_V-
If used as CANOpen#2 please refer to 3.5.3 CN2: CanOpen connection #1 for more information about connection table and wiring. Please refer to software manual for further information about how GWC device works when in DeviceNet or CAN bus mode. Signal DNET_V-
DNET_L Pin CN3.1 CN3.2 Function DNET_Ground DNET CAN_L signal DNET_SHIELD CN3.3 DNET_ Shield DNET_H DNET_V+
CN3.4 CN3.5 DNET CAN_H signal DNET Positive Supply Wiring requirements Please use cables compliant to DeviceNet association requirements for DeviceNet connection. Please use twisted wires having 0.5mm2 (#20AWG) or 0.25mm2
(#23AWG) section for CAN bus connection. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 31 of 49 DeviceNet network schema Please note that the 1st and the last node in the network must have a 120 ending resistor. 120R 120R DNET_H DNET_H NODO #n DNET_L DNET_L DNET_V+
DNET_V+
DNET_V-
DNET_V-
DNET_H DNET_H NODO #1 DNET_L DNET_L DNET_V+
DNET_V+
DNET_V-
DNET_V-
DNET_V+
DNET_V+
DNET_V-
DNET_V-
NETWORK POWER SUPPLY H H _ _ T T E E N N D D NODO #2 L L _ _ T T E E N N D D
V V _ _ T T E E N N D D
V V _ _ T T E E N N D D Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 32 of 49 3.5.5. CN4 CN5: RS232 and RS485 connections #1 #2 i GWC device could be equipped with up to 2 RS232/485 serial interfaces, depending upon specific device version. RS232/RS485 physical interface is a 9 poles SUB-D type connector i Please refer to software manual for further information about how serial interfaces work. Connection table Segnali Pin Funzioni n.c. Rx Tx n.c. GND
+Rx
+Tx
-Rx CN4(5).1 not connected CN4(5).2 RS232 receiver input CN4(5).3 RS232 transmitter output CN4(5).4 not connected CN4(5).5 RS232 Interface Signal ground CN4(5).6 RS485 receiver +side (input) CN4(5).7 RS485 transmitter +side (output) CN4(5).8 RS485 receiver side (input) Wiring requirements CN4(5).9 RS485 transmitter side (output)
-Tx Please use shielded cable having wires with 0.5mm2 (#20AWG) or 0.25mm2 (#23AWG) section. For the RS485 connection please use a cable having twisted pairs. Connector pin-out GND n.c. Tx (RS232) Rx (RS232) n.c. 5 4 3 2 1 9 8 7 6
+Rx (RS485)
+Tx (RS485)
-Rx (RS485)
-Tx (RS485) Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 33 of 49 RS485 connection Master T R 120 120 FULL DUPLEX MASTER/SLAVE BUS 4 Wires Net 120 120 R T R T R T Node... #1 Node... #2 Node... #n Note: bus 1st and last nodes must have ending resistor inserted Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 34 of 49 3.5.6. CN6: Digital inputs connection There are 8 opto-isolated, 24Vdc, PNP/Push pull source compatible available on CN6 front connector. CN6 is a PHOENIX micro-COMBICON 1881516 9-poles male connector Connection table Pin CN6.1 CN6.2 CN6.3 CN6.4 CN6.5 CN6.6 CN6.7 CN6.8 CN6.9 Description IN-0 IN-1 IN-2 IN-3 IN-4 IN-5 IN-6 IN-7 VSS Function Input function depends upon user program running on the GWC device Common Vss i Please refer to chapter 5 for further information about how to I/O work on different GWC device available versions. Wiring requirements Please use shielded cable having wires with 1.0mm2 (#18AWG) or 0.5mm2 (#20AWG) section. 9 8 7 6 5 4 3 2 1 Phoenix micro-Combicon 1881396 9-poles female 2.5mm IN-0 IN-1 IN-2 IN-3 IN-4 IN-5 IN-6 IN-7 VSS Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 35 of 49 3.5.7. CN7: Digital outputs connection Connection table There are 8 opto-isolated, 24Vdc, PNP available on CN7 front connector. CN7 is a PHOENIX micro-COMBICON 1881529 10-poles male connector Pin CN7.1 CN7.2 CN7.3 CN7.4 CN7.5 CN7.6 CN7.7 CN7.8 CN7.9 CN7.10 Description Function OUT-0 OUT-1 OUT-2 OUT-3 OUT-4 OUT-5 OUT-6 OUT-7
+24Vdc VSS Output function depends upon user program running on the GWC device Outputs power supply (+) Common Vss (-) i Please refer to chapter 5 for further information about how to I/O work on different GWC device available versions. Wiring requirements Please use shielded cable having wires with 1.0mm2 (#18AWG) or 0.5mm2 (#20AWG) section. 10 9 8 7 6 5 4 3 2 1 Phoenix micro-Combicon 1881406 10-poles female 2.5mm OUT-0 OUT-1 OUT-2 OUT-3 OUT-4 OUT-5 OUT-6 OUT-7
+24 VSS Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 36 of 49 3.5.8. CN8 : PROFIBUS DP interface connection PROFIBUS DP interface is not available on all device versions. PROFIBUS DP physical interface is a 9 poles female SUB-D type connector i Please refer to software manual for further information about PROFIBUS connection. Connection table Segnali Pin Funzioni Shield n.c. CN8.1 Shield Protective Ground CN8.2 n.c. RxD/TxD-P CN8.3 Positive Receive/Trasmission Data CNTR-P CN8.4 Control Signal for repeaters (Positive direction control RTS) DGND V+
CN8.5 Data Trasmission Ground CN8.6 Supply Voltage Positive (+5V for terminating resistors) n.c. CN8.7 n.c. RxD/TxD-N CN8.8 Negative Receive/Trasmission Data CNTR-N CN8.9 Control Signal for repeaters (Negative direction control RTS) Wiring requirements Please use shielded cable having twisted pairs with 0.5mm2 (#20AWG) or 0.25mm2 (#23AWG) section. Shield n.c. RxD/TxD-P CNTR-P DGND 1 2 3 4 5 6 7 8 9 V+
n.c. RxD/TxD-N CNTR-N Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 37 of 49 PROFIBUS network topology
+V (5V) VCC NODO #1 Tx DE RE Rx GND 8 4 3 2 1 5 6 7 390R 220R 390R
+V (5V) NODO #n VCC Tx DE RE Rx GND 8 4 3 2 1 5 390R 220R 390R 6 7 DGND DGND NODO #2 NODO #3 6 7 6 7 C C V x T E D E R x R D N G C C V x T E D E R x R D N G 8 4 3 2 1 5 8 4 3 2 1 5 Note: the first and last node should have ending resistors inserted Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 38 of 49 3.5.9. CN12 CN13: TRASPONDERs connection PROFIBUS DP interface is not available on all device versions. Transponders physical interface is an AMP 3 poles MODU MTE 103635-2 connector i Please refer to software manual for further information about Transponders connections. Connection table Function Description Pin CN12(13).1 CN12(13).2 CN12(13).3 TRSP_GND Trasponder GND TRSP_TX Data Trasmission TRSP_RX Data Receive Wiring requirements Please use provided cable for transponders connection. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 39 of 49 4. Controller start up This section provides information on how to startup GWC controller. User should:
check the installation provide GWC controller maintenance. 4.1. Check the installation Before starting it up Please check that GWC device version is the correct/desired one;
Please check that controller setup satisfies software application requirements;
Please check that wiring and mounting have been performed in the correct way. 4.2. Maintenance GWC device is designed to reduce maintenance operations to the minimum, such as regular removal of dust from heat sinks by mean of filtered, dry and low pressure air flow. 4.3. Signals and working conditions Signals GWC device current state/operating condition is displayed by mean of a 7-segment display. i Please refer to software manual for the specific application signals meaning. Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 40 of 49 4.4. Toubleshooting Troubleshooting table Simptoms No effects are observed on the controller system. User program does not run No data exchange on communication lines Digital outputs do not work Data on digital inputs is not read properly Consequent action Please check power supply wiring, fuse integrity and, if previous checks are ok, verify that power supply voltage is within allowed range and tolerances. Please check wirings and power supplies. Please check software manual. Please check wirings and power supplies. Please check software manual. Please check digital outputs wirings and power supplies. Please check software manual. Please check digital input wirings, in particular the Vss signal cable. Please check software manual i Please use provided protection state diagram and troubleshooting table to locate the problem and solve it. If correct device operations are not restored, please contact TECNOLOGIX service department. If not sure about GWC device operations, prior to replace it please check that installation and provided power supply are those needed for device correct operations. Attempts to solve a problem by simply replacing the supposed faulty unit are not a good practice in troubleshooting. When normal operation conditions have been restored, please start up the system (GWC device and controlled system) in order to avoid dangerous situations. If it is not possible to solve the problem, please phone TECNOLOGIX for technical support or send an e-mail message following information:
including GWC device version (GWCnnnn) and serial number, as printed on the label placed on the metal box;
A full description of the problem, including working conditions in which the problem arose;
Any information about GWC device setup, i.e. I/O connections, communication interfaces used and related network topology, if any, etc.) Nominal and measured power supply voltage and characteristics (i.e. ripple);
Any information about additional devices connected to GWC
(data exchanged, connection diagram, etc.) its Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 41 of 49 5. GWC versions and specifications This section describes characteristics of available GWC versions. i Information provided in this section are considered priority than GWC general specifications previously reported. 5.1. Device coding and order information To order a GWC specific version, please use following information:
GWC _ _ _ _ _ _ custom : 00 = none link: refer to table 4 I/O: refer to table 3 serial if: refer to table 2 bus type: refer to table 1 Product identifier : GateWay Controller Table 1 : BUS type CanOpen DeviceNet CanOpen+DeviceNet CanOpen 2 CanOpen Profibus+ 2 CanOpen Profibus+CanOpen+DeviceNet Profibus Profibus+CanOpen Profibus+DeviceNet 0 1 2 3 4 5 6 7 8 9 A Table 2 : SERIAL IF none 1 RS232/485 2 RS232/485 1 RS232 2 RS232 1 RS485 2 RS485 1 RS232 + RS485 0 1 2 3 4 5 6 7 8 9 A 0 1 2 3 4 5 6 7 8 9 A Table 3 : I/O no I/O 8 DigIN + 8 DigOUT
(*) Encoder
(*) 8 DigI/O + Encoder
(*) Analog IN
(*) 8 DigI/O + Encoder + AnalogIN
(*) 8 DigI/O + Encoder + CLK Out
(*) Uscite CLK
(*) 8 DigI/O + Encoder + AnalogIN
+ CLK Out
(*) currently not available 5.2. Available GWCnnnn versions GWC Config Power Supply Digital Inputs Digital Outputs CAN Device Net Profi Bus Serial Trasponder Kit conn. B110 Cxxxx 24Vdc
(1) 8
(1) 8 Digital inputs: 24Vdc PNP Digital outputs: 24Vdc@500mA PNP 1 1 1 2
C Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 43 of 49 5.3. Technical specifications CISC 16bit 40MHz microprocessor, w/ 128KB internal flash memory;
Up to 2MB external flash; default size is 1MB for versions with external flash on board;
Up to 1MB hi-speed external RAM; default size is 1MB for versions with external RAM on board;
Serial E2PROM (optional);
Up to 2 insulated 1MBit/s CANOpen interfaces;
Up to 1 insulated 1Mbit/s DeviceNet interface (if present, only 1 CANOpen interface is available);
2 insulated, half/full duplex independent serial RS232 or RS485 interfaces;
8 insulated PNP inputs, 5V or 24V 200KHz; configuration 5/24V is performed at manufacturing time; IN0-IN1 could be driven by an incremental quadrature encoder;
8 insulated, short circuit protected outputs, 24V 1KHz;
8 dip switches handled by software;
1 7-segment display handled by software;
Power supply voltage: 24Vdc (20%);
Power supply maximum current: 800mA;
Physical dimensions: 194(H) x 45(W) x 120(D) mm Weight:
380g (w/o metal box) 480g (w/ metal box) 800g (w/ metal box and expansion board) Operating temperature range: 0C 50C Storage temperature range: -25C +55C Humidity (non condensing): 5% 85%
Maximum altitude: 1000m s.l. IP20 protection class Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 44 of 49 A. APPENDIX A.1 Connections Input CN1 DC Input Supply + Earth Ground Pin CN1.1 V+
CN1.2 V-
CN1.3 EARTH Description Power supply voltage DC (+) Reference for power supply voltage DC (-) Earth Ground CN2 CanOpen #1 Pin Signal CN2.1 0_CAN CN2.2 CAN_L CN2.3 Earth Function Can_Ground CAN_L signal Can_ Shield CN2.4 CAN_H CAN_H signal CN2.5 N.C. N.C. CN3 DeviceNet or CanOpen #2 Pin Function Signal CN2.1 DNET_V-
DNET_Ground CN2.2 DNET_L DNET CAN_L signal CN2.3 DNET_SHIELD DNET_ Shield CN2.4 DNET_H DNET CAN_H signal CN2.5 DNET_V+
DNET Positive Supply CN4 RS232/485#1 Pin Signal CN4.1 n.c. CN4.2 CN4.3 Rx Tx CN4.4 n.c. CN4.5 GND CN4.6 CN4.7 CN4.8 CN4.9
+Rx
+Tx
-Rx
-Tx Function Not connected RS232 receiver input RS232 transmitter output Not connected RS232 Interface Signal ground RS485 receiver +side (input) RS485 transmitter +side (output) RS485 receiver side (input) RS485 transmitter side (output) Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 45 of 49 CN5 RS232/485#2 Pin Signal Function CN5.1 n.c. Not connected CN5.2 CN5.3 Rx Tx RS232 receiver input RS232 transmitter output CN5.4 n.c. Not connected CN5.5 GND RS232 Interface Signal ground CN5.6 CN5.7 CN5.8 CN5.9
+Rx
+Tx
-Rx
-Tx RS485 receiver +side (input) RS485 transmitter +side (output) RS485 receiver side (input) RS485 transmitter side (output) CN6 Digital Inputs Signal Function Pin CN6.1 IN-0 CN6.2 IN-1 CN6.3 IN-2 CN6.4 IN-3 CN6.5 IN-4 CN6.6 IN-5 CN6.7 IN-6 CN6.8 IN-7 CN6.9 VSS Common Vss Input function depends upon user program running on the GWC device CN7 Digital Outputs Pin CN7.1 CN7.2 CN7.3 CN7.4 CN7.5 CN7.6 CN7.7 CN7.8 CN7.9 CN7.10 Signal Function OUT-0 OUT-1 OUT-2 OUT-3 OUT-4 OUT-5 OUT-6 OUT-7
+24Vdc Outputs power supply 24Vdc Common Vss (-) VSS Output function depends upon user program running on the GWC device Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 46 of 49 CN8 ProfiBus Signal Pin Function CN8.1 Shield Shield Protective Ground CN8.2 n.c. n.c. CN8.3 RxD/TxD-P Positive Receive/Transmission Data CN8.4 CNTR-P Control Signal for repeaters (Positive direction control RTS) CN8.5 DGND Data Transmission Ground CN8.6 V+
CN8.7 n.c. Supply Voltage Positive (+5V for terminating resistors) n.c. CN8.8 RxD/TxD-N Negative Receive/Transmission Data CN8.9 CNTR-N Control Signal for repeaters (Negative direction control RTS) Signal CN12 Trasponder#1 Pin CN12.1 CN12.2 CN12.3 TRSP_TX TRSP_RX TRSP_GND Signal CN13 Trasponder#2 Pin CN13.1 CN13.2 CN13.3 TRSP_TX TRSP_RX TRSP_GND Function Data Transmission Data Receive Transponder GND Function Data Transmission Data Receive Transponder GND
(*) Connector presence depends upon device specific version Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 47 of 49 A.2 Power supply Connection diagram EMC filter Transformer Protections C Discharge resistor
Twisted M a i n s Surge suppressors Surge suppressors Transformer On transformer primary circuit, they protect device from mains surge. Transformer primary circuit have to be chosen according to mains characteristics. Voltage peaks on secondary are equals to V2-RMS 2 where V2-RMS is transformer secondary circuit nominal voltage Power supply characteristics depend upon loads connected to DC line. Approx. characteristics can be obtained applying the following procedure:
Overall power consumption Ptot (Watt):
Ptot = PL Where PL is a connected load power consumption in Watt. Transformer power PTr (Watt):
PTr = 2 Ptot Transformer power PTrVA (VA):
PTrVA = PTr / 0.7 (1 ph.) PTrVA = PTr / 0.8 (3 ph.) Let consider a voltage fall equals to 8% of nominal voltage on load connection, then:
PTrVA = VdcBUS Imax 2 Doc.: HD0389-00-Manuale_TL_GWCxxxx_r.0.1_EN.doc-00 17/04/2011 Page 48 of 49
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2013-10-17 | 0.125 ~ 0.125 | DCD - Part 15 Low Power Transmitter Below 1705 kHz | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2013-10-17
|
||||
1 | Applicant's complete, legal business name |
Inpeco Spa a Socio Unico
|
||||
1 | FCC Registration Number (FRN) |
0020359642
|
||||
1 | Physical Address |
Via Givoletto 15
|
||||
1 |
Val della Torre Torino, N/A 10040
|
|||||
1 |
Italy
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
s******@nemko.com
|
||||
1 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
Y2K
|
||||
1 | Equipment Product Code |
CANBUSGW002
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
C******** L******
|
||||
1 | Title |
Certification Engineer
|
||||
1 | Telephone Number |
39011********
|
||||
1 | Fax Number |
39011********
|
||||
1 |
c******@inpeco.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
Inpeco Spa a Socio Unico
|
||||
1 | Name |
C**** L****
|
||||
1 | Physical Address |
Via Giuseppe Di Vittorio 11
|
||||
1 |
Segrate, 20090
|
|||||
1 |
Italy
|
|||||
1 |
c******@inpeco.com
|
|||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DCD - Part 15 Low Power Transmitter Below 1705 kHz | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Radio Frequency Identification Device for Sample Carriers | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Nemko SpA
|
||||
1 | Name |
R******** S********
|
||||
1 | Telephone Number |
39-03******** Extension:
|
||||
1 | Fax Number |
39-03********
|
||||
1 |
r******@nemko.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 0.12500000 | 0.12500000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC