FreeWave FGR2-IO-IOE User Manual And Reference Manual Download Page 110

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7. Specifications

7.5 I2-IOM-U Specifications

Specifications may change at any time without notice. For the most up-to-date specifications

information, see the product's data sheet available at

www.freewave.com

I2-IOM-U Specifications

Transmitter

Frequency Range

2.4 - 2.483 GHz (FHSS)

Output Power

5 mW to 500 mW

Range - Line of Sight

20 miles with clear LOS

Modulation

2 level GFSK

Occupied Bandwidth

230 kHz

Hopping Patterns

15 per Band, 105 total user selectable

Hopping Channels

50 to 80 out of 240 user selectable

Hopping Bands

7, user selectable

RF Connector

Type SMA

Master Receiver

Master Analog Output

Sensitivity

-105 dBm for BER 10

-6

-107 dBm for BER 10

-4

Number of

Outputs

4, can be mapped to up

to 4 slaves

Selectivity

TBD

Accuracy,

Resolution

+/- .1%, 16 bit

System Gain

134 dB

Output Range

.2-5.62V, > 10 Kohm

Load Resistance

Master Digital Outputs

Master Digital Inputs

Number of Outputs

4 per Master Link, 1

Command Alarm

Number of

Inputs

Output Connector

Mini Phoenix (3.55 mm)

Master Input to

Slave

Output Delay

1 Second Max

Slave Input to master

Output Delay

1 Second Max

Low Input

Voltage Range

0 to 1.75 V

Signal Voltage Range

0 - 4.6 V

High Input

Voltage Range

3.25 to 5.0 V

Data Transmission

Error Detection

32 bit CRC, Retransmit on Error

Data Encryption

Dynamic Key Substitution

Page 110 of 131

LUM0008AG Rev Sep-2015

This document is the property of FreeWave Technologies, Inc. and contains proprietary information owned by

FreeWave®. This document cannot be reproduced in whole or in part by any means without written permission from

FreeWave Technologies, Inc.

Summary of Contents for FGR2-IO-IOE

Page 1: ...Part Number LUM0008AG Revision Sep 2015 Wire Replacement I O 900 MHz I O Masters FGRIO M I O Slaves FGRIO S FGR2 IOS C U FGR2 IOS CE U FGR2 IO IOE User Manual and Reference Guide...

Page 2: ...s used outside of FreeWave specifications as stated in the Product s data sheet 3 If Product has been modified repaired or altered by Customer unless FreeWave specifically authorized such alterations...

Page 3: ...e covers FreeWave Technologies Inc models sold under FCC ID KNY 6231812519 FGR models and KNY 42182112519 FGR2 models All models sold under the FCC ID s listed above must be installed professionally a...

Page 4: ...interf rence qui peut causer le fonctionnement peu d sir du dispositif Schedule of Limitations l Provision shall be made to prevent the rated voltage being exceeded by the transient disturbances of mo...

Page 5: ...ster s Data Port and an End Device 29 2 4 1 Baud Rate 30 2 4 2 Data Parity 30 2 4 3 Flow Control 31 2 4 4 Modbus RTU 31 2 4 5 Serial Interface 32 2 4 6 Setup Port 33 2 4 7 Turn Off Delay 33 2 4 8 Turn...

Page 6: ...hms and AI2 250 Ohms 52 3 7 3 DI1 150 Ohms and DI2 150 Ohms 53 3 7 4 Default Delay 53 3 7 5 Digital Output 1 Default and Digital Output 2 Default 54 3 7 6 DI1 Pullup and DI2 Pullup 54 3 7 7 DO Bi Stab...

Page 7: ...er 74 5 1 3 Tx Data and Rx Data 74 5 1 4 Sensor Power 75 5 1 5 Digital Inputs 75 5 1 6 Analog Outputs 75 5 1 7 Digital Outputs 76 5 1 8 Link Alarms 76 5 2 Wiring I O Slaves 77 5 2 1 Radio Power 77 5 2...

Page 8: ...3 5 6 3 Terminal Port Mappings in Tool Suite 94 6 Viewing Radio Statistics 95 6 1 Viewing the Radio Statistics in Tool Suite 95 6 2 Viewing the Radio Transmission Characteristics in the Terminal Inter...

Page 9: ...minal Block Layout 122 9 4 FGRIO S Terminal Block Layout 123 10 Approved Antennas 125 10 1 900MHz Directional Antennas 125 10 2 900MHz Omni directional Antennas 125 Appendix A Troubleshooting Terminal...

Page 10: ...his document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or in part by any means without written per...

Page 11: ...ing these radio models to set up a wire replacement I O system l A basic introduction to both wire replacement and Modbus I O to help use the correct application l Radio configuration including l An i...

Page 12: ...t page at www freewave com FreeWave provides technical support Monday through Friday 8 00 AM to 5 00 PM Mountain Time GMT 7 l Call toll free at 1 866 923 6168 l In Colorado call 303 381 9200 l Contact...

Page 13: ...he text or procedure Provides time saving or informative suggestions about using the product Warning Indicates a situation that WILL cause damage to personnel the radio data or network Documentation F...

Page 14: ...his document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or in part by any means without written per...

Page 15: ...onnect a FreeWave I O Master radio to a PLC or RTU device l Connect FreeWave I O Slave radios to sensors transmitters and switches to monitor and control devices l Modbus I O A Modbus I O system provi...

Page 16: ...can provide wireless I O to a SCADA network In wire replacement the FGR2 IO IOE can operate as a Slave linked to an FGRIO M Master x x I O Master FGRIO M l The FGRIO M can operate as a Master in a 90...

Page 17: ...ansion models 1 2 Wire Replacement I O Systems A wire replacement I O system can exist as l a standalone system with an I O Master FGRIO M and l a maximum of four I O Slaves not exceeding the Master s...

Page 18: ...as a MultiPoint Slave and can still be connected to up to four I O Slaves not exceeding the Master s I O terminal port count Page 18 of 131 LUM0008AG Rev Sep 2015 This document is the property of Free...

Page 19: ...n application in Tool Suite you can program changes to the radio s settings l Tool Suite is available for download from www freewave com l Terminal Emulator A terminal emulator program e g HyperTermin...

Page 20: ...program a radio the radio must be in Setup mode When a radio is in Setup mode all three LEDs appear as solid green Note OEM boards may also enter Setup when Pin 2 on a 10 point connector or Pin 8 on a...

Page 21: ...cs port the radio changes to Setup mode automatically when you click Read Radio in Tool Suite To place board level radios into Setup Mode a Short pins 2 4 Brown to Black on the 10 pin header next to t...

Page 22: ...er Manual available by selecting File Help in the Tool Suite software Procedure 1 Plug a serial cable into the Com 1 of the radio 2 Connect the cable to a Com port on the computer running Tool Suite 3...

Page 23: ...vated the FreeWave Setup Main Menu appears in the terminal emulator window l All three LEDs on the radio light green and stay green as long as the radio is in Setup mode l The main setup menu appears...

Page 24: ...en Blinking red Blinking red I O Master linked to the network Master and the I O Slave linked to the I O Master Solid green bright Solid red dim Flickering red Blinking green Blinking red Blinking red...

Page 25: ...transmission settings in the Transmission Characteristics tab to determine how data is sent between the I O Master and the I O Slaves 5 Set additional parameters specific that apply to a wire replacem...

Page 26: ...read the radio s current settings Figure 6 Tool Suite Radio Information tab 5 Click the Operation Mode tab 6 In the Modem Mode field select one of these options l E FGRIO Master Select this mode when...

Page 27: ...GRIO was selected in Step 6 select a unique key FreeWave Recommends Change the key from the default setting of 5 Note If 3 Point to MultiPoint Slave is selected in Step 6 the Frequency Key must match...

Page 28: ...cond l 42 7 seconds l 252 42 seconds l Analog Out 1 through Digital Out 4 Map the I O Master outputs to the I O Slave inputs l Select the appropriate I O Slave input from the drop down list next to th...

Page 29: ...he network accordingly Important The modem mode is the only setting that is required in the Operation Mode tab The Ethernet settings available are not used in a wire replacement network and should be...

Page 30: ...or higher use the Flow Control lines Note The Setup port baud rate always defaults to 19 200 no matter how the data port baud rate is set 2 4 2 Data Parity Data Parity Setting Description Default Set...

Page 31: ...commends Use Flow Control if the Baud Rate is higher than 19200 2 4 4 Modbus RTU Note When using the radio in Modbus RTU mode the Master Packet Repeat setting in the MultiPoint Parameters tab must mat...

Page 32: ...ting 1 x 2 Example In a radio where the Modbus RTU setting is 2 and the Master Packet Repeat setting is 3 the radio waits for 2 3 1 x 2 or 12 slots 2 4 5 Serial Interface Serial Interface Setting Desc...

Page 33: ...rough the data port l 2 Diagnostics Only Programming and reading a radio s setup information is done through the diagnostic port l If the Serial interface is set to anything other than RS232 then the...

Page 34: ...ocessor changes so that a Turn Off Delay of 5 has the same effect as if set to 1 and a setting of 6 has the same effect as 2 and so on 2 4 8 Turn On Delay Turn On Delay Setting Description Default Set...

Page 35: ...both the Call Book and the Network ID to establish communication with the I O Slaves Setting both the Call Book and the Network ID is unique to wire replacement I O and MUST be done for both integrate...

Page 36: ...I O Slaves Each of the additional parameters is described in detail in Setting Other RF Transmission Characteristics on page 57 2 6 1 Frequency Key 900MHz Frequency Key Setting Description Default Set...

Page 37: ...Size and Min Packet Size Max Packet Size and Min Packet Size Setting Description Default Options Max Packet Size 8 Min Packet Size 9 Options l Any number between 0 and 9 l If the I O Master s Modem Mo...

Page 38: ...60 3 52 68 84 100 116 132 148 167 4 56 72 88 104 120 136 152 168 5 60 76 92 108 124 140 156 172 6 64 80 96 112 128 144 160 176 7 68 84 100 116 132 148 164 180 8 72 88 104 120 136 152 168 184 9 76 92 1...

Page 39: ...ameters is described in detail in Setting Other MultiPoint Parameters on page 67 2 7 1 Master Packet Repeat Master Packet Repeat Setting Description Default Setting 3 Options In a wire replacement I O...

Page 40: ...ve l If the I O Master is in a standalone system with a Modem Mode setting of 3 FGRIO Master both the Rx and Tx components of the Subnet ID should be set to F Two components exist with regard to the S...

Page 41: ...ve Inputs on page 42 2 8 1 Default Delay Default Delay Setting Description Default Setting 255 Options Any number between 0 and 255 representing 0 28 second units see below Terminal Menu 9 FGRIO Setup...

Page 42: ...ttached l The outputs return to this state after the amount of time has passed in the Default Delay parameter 2 8 3 Mapping I O Master Outputs to I O Slave Inputs Map the I O Master Outputs to the I O...

Page 43: ...Slave is connected 5 Using this table find the number listed at this intersection the intersection between the I O Master s Call Book Entry number found in Step 3 and the selected input from the I O...

Page 44: ...or Power Setting Description Default Setting 0 Always On Options l 0 Always On Supplies continuous power to the VSNS port Pin 7 of the I O Slave l 1 Gated Controls the VSNS port of all I O Slaves comm...

Page 45: ...Range I O Slaves and I O Slaves Terminal Menu 9 FGRIO Setup A Sensor Pwr Description Determines the behavior of the Sensor Power terminal LUM0008AG Rev Sep 2015 Page 45 of 131 This document is the pro...

Page 46: ...his document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or in part by any means without written per...

Page 47: ...s tab to determine how data is sent to the I O Master 4 Set additional parameters specific that apply to a wire replacement I O system in the MultiPoint Parameters tab 5 Set the output default states...

Page 48: ...er either through a serial cable or using the diagnostics cable 2 Connect the radio to a power source 6 0 to 30 0 VDC 3 Open Tool Suite and click Configuration in the Application pane 4 Click Read Rad...

Page 49: ...s and AI2 250 Ohms If configuring an FGR2 IOS CE U an enclosed radio without an expansion port set the power up state of the internal resistor 250 resistor when connecting the I O Slave s Analog Input...

Page 50: ...Manual available by selecting File Help in the Tool Suite software 3 3 Setting the I O Slave s Role in the Network The first parameter to set in an I O Slave in a wire replacement I O system is its Op...

Page 51: ...the network In each I O Slave in the wire replacement I O system set these parameters to match those set in the I O Master l Frequency Key l Hop Table Version l Hop Table Size l Max and Min Packet Si...

Page 52: ...terminal interface AI DI1 Filter and AI DI2 Filter parameters available in the FGRIO Setup menu do not apply to wire replacement I O and the IO Modbus setting in the FGRIO Setup menu must be set to Di...

Page 53: ...tchable and protected 150 resistor for use when using 4 20 mA sensors l When enabled the resistor can take the place of an inline resistor between the device and the I O Slave s analog input 3 7 4 Def...

Page 54: ...loses its link to the Master in the network Note If programming a Digital Output to turn on after it loses a link verify the energized device can sustain the state undamaged in case the loss is lengt...

Page 55: ...Options l Constant The Digital Output remains on for as long as the I O Master s associated Digital Input is connected to Ground l When the I O Master s Digital Input is no longer grounded the Digital...

Page 56: ...unt of time is approximately 0 15 seconds x DO Monostable Time l A setting of 0 causes the Digital Output to turn off at an unspecified amount of time l This time is always less than 0 15 seconds but...

Page 57: ...icated otherwise in their description Set these parameters in the Transmission Characteristics tab Note These settings are available in the Edit Radio Transmission Characteristics menu in the terminal...

Page 58: ...limitations of that selection are also applied to the hopping pattern Example If 916 920 is selected as the Hop Table Version only the middle of the band is available in the pattern Then if Frequency...

Page 59: ...nsmission Characteristics tab 3 Click Frequency Zonesto view the frequency zones available 4 Select the check boxes next to the Frequency Zones to enable Enable Frequency Zones in the Terminal Interfa...

Page 60: ...results are seen as a lower signal value and a much lower noise value as found in Radio Statistics or Diagnostics l If the noise is not reduced by a greater amount than the signal the interference is...

Page 61: ...n 900MHz Note All radios in a network must have identical Hop Table settings to communicate properly Hop Table Version 900MHz Setting Description Default Setting 902 928 MHz Options l 902 911 919 928...

Page 62: ...s a MultiPoint Slave to consume less power primarily by dimming the radio s LEDs l When set to 2 through 31 the radio sleeps between slots l When the radio is asleep it hears nothing from the I O Mast...

Page 63: ...et to 3 for Low Power Mode to operate properly l The diagnostic pins must be disabled or terminated to a cable for the Sleep current in Lower Power Mode to match the specifications l To disable the di...

Page 64: ...s the Diagnostic port which has a small amount of current draw l When using remote LEDs the center TX LED does not output a signal for a green LED when in Setup mode l The Green TX LED has no remote p...

Page 65: ...ption Default Setting 0 On Options 0 On 1 Off Terminal Menu 3 Edit Transmission Characteristics 6 Slave Security Description l In a wire replacement I O system leave this parameter set to On l A setti...

Page 66: ...radios to the field raise the Transmit Power number accordingly Important This table is for reference only All Transmit Power settings between 0 and 9 are approximate Setting Transmit Power in mW 0 5...

Page 67: ...Slave models unless indicated otherwise in their description 4 2 1 1 PPS Enable Delay 1 PPS Enable Delay Setting Description Default Setting 255 Options 255 to disable 1 PPS 0 to 254 to enter the dela...

Page 68: ...the I O Master must have a 1 PPS pulse on its DTR pin otherwise the RF network does not function 4 2 2 Diagnostics Diagnostics Setting Description Default Setting 0 Disabled Options Any number between...

Page 69: ...l The radio has two separate transmit and receive user data buffers l These buffers are 2 Kbytes each In case of a buffer overflow the radio outputs unpredictable data 4 2 4 Local Mode Note This param...

Page 70: ...dio Name Setting Description Default Setting Blank Options Any combination of letters or numbers up to 20 characters Terminal Menu 5 Edit MultiPoint Parameters G Radio Name Description l Use this para...

Page 71: ...ve attempts to retransmit the packet to the I O Master a low setting assigns low odds to the I O Slave attempting to transmit l Conversely a high setting assigns higher odds Example Consider two diffe...

Page 72: ...stem cannot contain a Repeater Page 72 of 131 LUM0008AG Rev Sep 2015 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document can...

Page 73: ...ire of a maximum size of 16 gauge 1 31 mm Smaller wire is required for 2 wires or wire and resistor connected into the same screw terminal 5 1 1 Screw Torque For all connections use these tightening t...

Page 74: ...he pin closest to the edge of the board 5 1 3 Tx Data and Rx Data l Pin 1 on the connector is the pin closest to the edge of the board l Pin 10 is closest to the inside of the board l On the 10 pin he...

Page 75: ...use Tool Suite to change the Sensor Power parameter setting on the I O Master to 1 or Gated l For more information see the Sensor Power parameter description in Sensor Power on page 44 5 1 5 Digital...

Page 76: ...Output 1 2 3 or 4 screw terminals on the I O Master terminal block to the Digital Inputs of the end device RTU 2 Connect a common Ground FreeWave Recommends Run a Ground wire from the I O Master Grou...

Page 77: ...terminal block of the I O Slave If the Ground wire is not returned to the radio the potential difference between the radio s Ground and the end device Ground should not exceed 1 V 3 If wiring a 3 wire...

Page 78: ...re 12 Example Digital Output Wiring 5 2 4 Wiring I O Slaves to 4 20 mA Sensors A common measurement interface for sensing equipment is a 4 20 mA current output l The current amplitude correlates to a...

Page 79: ...0 Ohms or AI2 250 Ohms parameter in the Wire Replacement tab in Tool Suite Note The internal resistor powers on after the radio powers on and boots up Important Verify the correct radio voltage is sup...

Page 80: ...rive only two 4 20 mA transmitters to full scale Note If a system uses more than two power the additional transmitters from a separate supply such as directly from the battery or another DC supply Thi...

Page 81: ...put 3 with Half the Typical Resistor LUM0008AG Rev Sep 2015 Page 81 of 131 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This docume...

Page 82: ...log Input 1 or Analog Input 2 l Analog Input 1 or Analog Input 2 screw terminal 8 and 10 are usable with 0 1 V to 5 625 V input voltages compatible with most 1 5 V and 4 20 mA transmitters and load th...

Page 83: ...the FGRIO S radio this feature requires firmware version of 2 65IO or higher l The Analog Inputs formed from the Digital Inputs at screw terminal 1 and screw terminal 2 are directly usable with signal...

Page 84: ...ll scale l Voltage output 1 5 V transmitters usually consume less current and may allow up to four to be switched This diagram illustrates the connection of a 1 5 V transmitter to Analog Input 3 Figur...

Page 85: ...Figure 18 Connection of a 1 5 V Transmitter Requiring 100 K Load LUM0008AG Rev Sep 2015 Page 85 of 131 This document is the property of FreeWave Technologies Inc and contains proprietary information...

Page 86: ...AO1 to RTU Analog Input for tubing sensor c AO2 to RTU Analog Input for casing sensor d DO1 to RTU Digital Output for solenoid valve Note The valve can be run in two lines one for valve open and one...

Page 87: ...Slave to the casing pressure sensor and the tubing sensor 3 Wire the terminal ports on the I O Slave to the solenoid valve and the plunger arrival sensor see example image 4 Wire each sensor to groun...

Page 88: ...for the solenoid valve 4 Send the settings to the radio Note The I O Slave is listed by serial number This example has only one I O Slave in the network with only one Slave is listed in the port sele...

Page 89: ...ctions 5 4 1 I O Master to the Emergency Shut Off 1 Wire the terminal ports on the I O Master to the emergency shut off device l DI1 to the Digital Input on the emergency shut off device Figure 24 I O...

Page 90: ...gured b the I O Master can connect to the I O Slave 2 Using Tool Suite connect to the I O Master and select the I O Settings tab 3 Map Digital Input 1 on the I O Master to Digital Output 1 on the I O...

Page 91: ...Master to the RTU 1 Wire the AO1 to Analog Input on the RTU Figure 27 I O Master to the RTU 5 5 2 I O Slave to the Well Head 1 Wire the terminal ports on the I O Slave to the sensor and wire the sens...

Page 92: ...I O Slave is listed by serial number As there is only one I O Slave in the network in this example only one Slave is listed in the port selection fields If there were additional I O Slaves in the netw...

Page 93: ...ster to the RTU 1 Wire the AO1 to RTU Analog Input for the tubing sensor Figure 30 I O Master to the RTU 5 6 2 I O Slave to the Well Head 1 Wire the terminal ports on the I O Slave to the tubing senso...

Page 94: ...or Note The I O Slave is listed by serial number As there is only one I O Slave in the network in this example only one Slave is listed in the port selection fields If there were additional I O Slaves...

Page 95: ...ool Suite see the Tool Suite User Manual 6 1 Viewing the Radio Statistics in Tool Suite 1 In the Tool Suite Configuration application click Read Radio 2 Click the Device Information tab 3 Review the r...

Page 96: ...tween the slave radio and the master radio in the network This distance is most accurate at a distance greater than 2 5 miles 6 5 Noise Level The Noise Level indicates the level of background noise an...

Page 97: ...ius FreeWave Recommends For proper operation a FreeWave radio must be in the temperature range of 40 to 75 C Some of the radios are only tested to 0 C Note See the radio specifications in this documen...

Page 98: ...when the Radio Statistics menu displays to view the frequency table l For a reliable link the margin should be at least 26 dB l Low average signal levels can often be corrected with higher gain anten...

Page 99: ...pecifications on page 103 l FGRIO M Specifications on page 106 l FGRIO S Specifications on page 108 l I2 IOM U Specifications on page 110 LUM0008AG Rev Sep 2015 Page 99 of 131 This document is the pro...

Page 100: ...4 BER Selectivity 20 dB at fc 115 kHz 60 dB at fc 145 kHz System Gain 140 dB Data Transmission 1 Error Detection 32 bit CRC retransmit on error Link Throughput 115 2 Kbps Data Interface Serial Protoc...

Page 101: ...r Separate 20 pin PCB header Power Requirements Operating Voltage 6 0 to 30 0 VDC Average Current mA currents shown with no AO connections made Mode 6 0 VDC 12 0 VDC 30 0 VDC Transmit 800 380 170 Rece...

Page 102: ...erative in wire replacement mode 2 DIs operative but there are no counters in Wire Replacement mode 3 No current sensing in wire Page 102 of 131 LUM0008AG Rev Sep 2015 This document is the property of...

Page 103: ...r Sensitivity board level only 107 dBm at 10 6 BER 109 dBm at 10 4 BER Selectivity 20 dB at fc 115 kHz 60 dB at fc 145 kHz System Gain 140 dB Data Transmission 1 Error Detection 32 bit CRC retransmit...

Page 104: ...4 C accuracy x Diagnostics Interface Connector Separate 20 pin PCB header Power Requirements Operating Voltage 6 0 to 30 0 VDC Average Current mA currents shown with no AO connections made Mode 6 0 V...

Page 105: ...ight Board Level 60 g Enclosure 509 g Humidity 0 to 95 non condensing 1 Data port not operative in wire replacement mode 2 DIs operative but there are no counters in Wire Replacement mode 3 No current...

Page 106: ...slaves Selectivity 20 dB at fc 115 kHz 60 dB at fc 145 kHz Accuracy Resolution 1 16 bit System Gain 140 dB Output Range 2 5 62V 10 Kohm Load Resistance Master Digital Outputs Master Digital Inputs Nu...

Page 107: ...mA Receive 140 mA 86 mA 43 mA Idle 120 mA 70 mA 38 mA Product Safety Standards EN 60079 0 2012 A11 2013 and EN 60079 15 2010 Labeling Information II 3 G Ex nA IIC Gc DEMKO 14 ATEX 1209313U General In...

Page 108: ...Hopping Channels 50 to 112 user selectable Hopping Bands 7 user selectable RF Connector SMA female Receiver Sensitivity 98 dBm at 10 6 BER 100 dBm at 10 4 BER Selectivity 20 dB at fc 115 kHz 60 dB at...

Page 109: ...aximum Voltage Rating Lesser of 20 V or the radio supply voltage Diagnostic Interface Connector Separate 20 pin PCB header Power Requirements Operating Voltage 6 0 to 20 0 V DC Average Current Usage m...

Page 110: ...n be mapped to up to 4 slaves Selectivity TBD Accuracy Resolution 1 16 bit System Gain 134 dB Output Range 2 5 62V 10 Kohm Load Resistance Master Digital Outputs Master Digital Inputs Number of Output...

Page 111: ...6 0 to 30 0 VDC Current mA Mode 6 0 VDC 12 0 VDC 30 0 VDC Transmit 375 295 140 Receive 120 80 51 Idle 9 5 3 General Information Operating Temperature Range 40 C to 75 C Dimensions Board Level 140 mm...

Page 112: ...This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or in part by any means without written pe...

Page 113: ...page 115 l FGR2 IOS C U Ports on page 116 l FGRIO M Ports on page 117 l FGRIO S Ports on page 118 LUM0008AG Rev Sep 2015 Page 113 of 131 This document is the property of FreeWave Technologies Inc and...

Page 114: ...G Rev Sep 2015 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or in part by any means wit...

Page 115: ...ts LUM0008AG Rev Sep 2015 Page 115 of 131 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole...

Page 116: ...G Rev Sep 2015 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or in part by any means wit...

Page 117: ...LUM0008AG Rev Sep 2015 Page 117 of 131 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or...

Page 118: ...Rev Sep 2015 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or in part by any means witho...

Page 119: ...and FGR2 IOS CE U Terminal Block Layout on page 121 l FGRIO M Terminal Block Layout on page 122 l FGRIO S Terminal Block Layout on page 123 LUM0008AG Rev Sep 2015 Page 119 of 131 This document is the...

Page 120: ...of 131 LUM0008AG Rev Sep 2015 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or in part...

Page 121: ...rminal Block Layout LUM0008AG Rev Sep 2015 Page 121 of 131 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be rep...

Page 122: ...f 131 LUM0008AG Rev Sep 2015 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or in part by...

Page 123: ...Layout LUM0008AG Rev Sep 2015 Page 123 of 131 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in w...

Page 124: ...This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave This document cannot be reproduced in whole or in part by any means without written pe...

Page 125: ...ional Antennas 900MHz Omni directional Antennas Gain dBi Manufacturer Manufacturer Model Number FreeWave Model Number 0 Mobile Mark PSTG0 915FW EAN0900RQ 0 Mobile Mark PSTN3 915N EAN0900NH 0 Mobile Ma...

Page 126: ...nex EB8965C EAN0905WC 5 Maxrad BMEFC8985HD EAN0905WC 6 Antennex FG9026 EAN0906NF Page 126 of 131 LUM0008AG Rev Sep 2015 This document is the property of FreeWave Technologies Inc and contains propriet...

Page 127: ...rate mismatch l Unreadable characters before grounding the pin indicates Diagnostics is enabled and the terminal emulator is connected to the Diagnostics pins l Update the terminal emulator s baud rat...

Page 128: ...and the parity of emulator are set the same Page 128 of 131 LUM0008AG Rev Sep 2015 This document is the property of FreeWave Technologies Inc and contains proprietary information owned by FreeWave Thi...

Page 129: ...ks The I O Master cannot function as a Slave Repeater Q Can the I O Master operate as Slave Repeater in the overall network A The IO Master currently does not have the capability to operate as a Slave...

Page 130: ...wer command from I O Master to IO Slave is 167 ms assuming a robust link Worst case delay from I O Master Sensor Power assertion to I O Master Analog Output refresh is 700 ms Page 130 of 131 LUM0008AG...

Page 131: ......

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