RipEX

foto03

Highlights

  • Native IP device
  • 1× ETH, 2× COM, 1× USB
  • Sleep & Save modes
  • 0.1–10 watts, – 40 to +70 °C
  • WiFi management
  • SW feature keys
  • Backup routes
  • Fast remote access

RipEX ist ein hochwertiger Funkrouter, der nicht nur in Bezug auf die Datenrate weltmarktführend ist. Dieses Software Defined Radio mit Linux Betriebssystem wurde mit modernster Spitzentechnologie für hohe Leistung und Qualität entwickelt. Alle Details eines modernen Konzepts wurden sorgfältig nach ISO9001 Qualitätsmanagement implementiert.

RipEX bietet hoch verfügbare Zuverlässigkeit für Fernwirksysteme im Bereich von Gas-, Wasser- und Energieversorgung, Smart Grid Netzwerken und anderen Anwendungen mit Telemetriedatenübertragung. Jedes RipEX kann – auch gleichzeitig- als Master, Repeater oder Unterstation konfiguriert werden. Dies erfolgt in sehr einfacher Weise über einen handelsüblichen Webbrowser

Mit etwas Erfahrung in der Einstellung von IP Netzen kann das RipEX in nur wenigen Minuten eingestellt und das Netzwerk in Betrieb genommen werden.

Wir bieten Ihnen die Möglichkeit zum Online-Testbetrieb mit RipEX. Bitte melden Sie sich hier an, um den Test bei uns anzumelden.

VIDEO

  • Router mode – RipEX arbeitet als Standard IP Router ohne Einschränkungen mit 2 Schnittstellen (Funk und Ethernet) und 2 COM Ports. Auf dem Funkkanal arbeitet ein hochentwickeltes Anti-Kollisions Protokoll, bei dem jedes einzelne Packet bestätigt wird. Jedes RipEX kann gleichzeitig als store-and-forward Repeater arbeiten.
  • Bridge mode – Anwenderpakete von der Anwenderschnittstelle werden als Broadcast an alle Modems gesendet und dort auf der zugehörigen Schnittstelle ausgegeben. Pakete von der seriellen COM1 werden an den anderen Funkmodems parallel auf COM1 und COM2 ausgegeben, so daß dort 2 Unterstationen anschließbar sind.

ROUTER MODE

BRIDGE MODE

  • Terminal server
    – 5 independent sessions
    – encapsulates serial protocol to TCP(UDP) and vice versa
    – eliminates a transfer of TCP overhead over Radio channel
    – suitable for IP and serial RTU’s combination within one network
  • TCP proxy
    – converts TCP into UDP and vice versa
    – TCP run only locally between connected device and RipEX on LAN
    – only payload (user) data are transferred over Radio channel
    – i.e. less traffic on Radio channel, no more problems with TCP timeouts
  • ARP proxy
    – RipEX can mimic any IP address (typically RTU behind the Radio channel)
    – suitable for RTU’s without routing capabilities within the same subnet
  • Subnets
    – any number of virtual Ethernet interfaces
    – IP aliases – any number of IP addresses on the Ethernet interface
  • VLAN
    – any number of VLANs assigned to Subnets
    – RipEX management can be done over VLAN

TERMINAL SERVER

TCP PROXY

ARP PROXY

  • > 200 kbps@50 kHz
  • > 100 kbps@25 kHz
  • > 50 kbps@12.5 kHz
  • > 25 kbps@6.25 kHz
  • Optimierung – die eingebaute Optimierung verdreifacht den Datendurchsatz im Funkkanal
  • Stream mode – sofortige Aussendung in den Funkkanal ohne Abwarten auf das Paketende an der COM => Null Verzögerung
  • Modbus, IEC101, DNP3, PR2000, Comli, DF1, Profibus, Async Link, C24, Cactus, RP570, Slip, Siemens 3964(R) und andere
  • Einzigartige Implementation
    – SCADA Protokoll Adressen werden in RipEX Adressen gewandelt
    – TCP (UDP)-Protokolle (zB IEC104) werden transparent gehandhabt
  • Jedes Paket wird als ein bestätigtes Unicast übertragen
  • Hoch entwickeltes Antikollisionsprotokoll auf dem Funkkanal => Fehlerbericht von entfernten Funkstationen, simultanes Multi-Master Polling
  • Terminal server – 5 unabhängige Sitzungen
    – packt das serielle Protokoll in TCP(UDP) and umgekehrt
    – Unterdrückt unerwünschten Overhead von TCP Paketen auf dem Funkkanal
  • Eingebauter Modbus RTU / Modbus TCP Konverter
  • 160, 300, 400, 900 MHz Bänder
  • Ein Radio-Hop bis zu 50 km, oder mehr
  • Direkte Sichtverbindung nicht erforderlich
  • HF Ausgangsleistung 0,1 – 10W
  • Hervorragende Empfangsempfindlichkeit – Bestwerte auf dem Markt
    -99 dBm / 16DEQAM / 25 kHz / BER 10e-6
    -115 dBm / 2CPFSK / 25 kHz / BER 10e-6
  • Hohe Störfestigkeit gegen Mehrwegeausbreitung und Interferenzen
  • Jede Station kann gleichzeitig als Repeater arbeiten
  • Hybride Netzwerke – jedes IP Netzwerk (WLAN, Internet, etc.) kann sich mit RipEX Stationen verbinden
  • Tested path between two RipEX IP addresses (even behind a repeater or LAN)
  • If primary route fails, automatic switch-over to backup gateway
  • Backup gateway can be behind Radio or Ethernet interfaces
  • Alternative path(s) continuously tested, i.e. switch-over only to functioning backup
  • Unlimited number of Alternative paths
  • Alternative paths priorities

BACKUP ROUTES

  • Jedes einzelne Gerät getestet in Klimakammer und mit echtem Datenverkehr
  • Heavy-duty oder industrielle Komponenten
  • Gebilligt für explosionsgefährdete Bereiche
  • Vibration shock resistant, seismic qualified
  • Industrielles robustes Aluminium Druckgußgehäuse
  • -40 bis +70 °C
  • 3 Jahre Garantie
  • Lizenzierte Funkfrequenzen
  • FEC, überlagernd, proprietäre Datenkompression
  • CRC32 Checksummen Überprüfung der Datenintegrität auf dem Funkkanal
  • Proprietäres Protokoll auf Funkkanal mit Paketbestätigung
  • AES256 Verschlüsselung
  • Firewall – Adressenfilter
  • Passwort-geschützter Zugriff, https Web Interface
  • SW Schlüssel erlauben die Nutzung von weiteren Leistungsmerkmalen nach Bedarf
  • Router, Speed, COM2, 10W, Backup routes, Master
  • Investitionsschutz – stufenweise Erweiterung
  • Zeitbegrenzte Schlüssel – ermöglicht den Test von Leistungsmerkmalen vor der Bestellung
  • Sleep mode – 0.1 W, gesteuert durch digitalen Eingang
  • Save mode – 2 W, aufwecken durch Packet auf dem Funkkanal
  • Basiswissen über IP reicht vollkommen aus
  • Web Interface
  • Servicezugang unabhängig voneinander über ETH oder USB Anschluß. (ETH/USB Adapter mit DHCP für USB Schnittstelle)
  • Wizards – schnelles und einfaches Einstellen
  • Alle Konfigurationsparameter auf einer Seite
  • Sehr schneller Webzugriff auf entfernte Funkstationen: nur die effektiv benötigten Daten werden per Funk versendet, die Html-Seite wird vom lokalen Modem geladen.
  • CLI via SSH
  • Eingebaute Diagnose & Netzwerk Management
  • Statistik logs für Schnittstellen und Kommunikationswege
  • Historische und momentane Werte dargestellt in Grafiken
  • 20 Perioden (z.B. Tage) für historische Daten
  • Werte (RSS, Ucc, Temp, PWR, usw.) auch von Nachbarstationen
  • SNMP inklusive Generierung von TRAP Alarmen, wenn eingestellt
  • HW Alarmeingang, HW Alarmausgang
  • Entfernbare Platte mit Aufkleber für Ihre Anmerkungen
  • DIN Rail-, Flach- oder 19” Rack-Montage
  • Demokoffer – bestehend aus 3 Geräten für Ihren unverbindlichen Test
  • „X5″ – externer ETH/USB Adapter mit DHCP für Servicezugriff via USB Schnittstelle
  • Getrennte RX und TX Antennenanschlüsse – optional
  • Integriertes GPS – optional
  • RipEX-HS – redundante 19″ Hot-Standby-Chassis

Radio parameters
Frequency bands 135–154; 154–174; 215-240; 300–320; 320–340; 340–360; 368–400;
400–432; 432–470; 470-512; 928–960 MHz – detail
Channel spacing 6.25 / 12.5 / 25 / 50 kHz (1)
Frequency stability +/- 1.0 ppm
Modulation QAM (Linear): 16DEQAM, D8PSK, π/4DQPSK, DPSK
FSK (Exponential): 4CPFSK, 2CPFSK
detail
Data speed (up to) > 200 kbps@50 kHz; > 100 kbps@25 kHz; > 50 kbps@12.5 kHz; > 25 kbps@6,25 kHz (2)
FEC (Forward Error Correction) On/Off, 3/4 Trellis code with Viterbi soft-decoder
Transmitter
RF Output power QAM (Linear): 0.5 – 1.0 – 2.0 W
FSK (Exponential): 0.1 – 0.2 – 0.5 – 1.0 – 2.0 – 3.0 – 4.0 – 5.0 – 10 (3) W
Duty cycle Continuous
Rx to Tx Time < 1.5 ms
Intermodulation Attenuation > 40 dB
Spurious Emissions (Conducted) < -36 dBm
Radiated Spurious Emissions < -36 dBm
Adjacent channel power < -60 dBc
Transient adjacent channel power < -60 dBc
Receiver
Sensitivity detail
Anti-aliasing Selectivity 50 kHz @ -3dB BW
Tx to Rx Time < 1.5 ms
Maximum Receiver Input Power 20 dBm (100 mW)
Rx Spurious Emissions (Conducted) < -57 dBm
Radiated Spurious Emissions < -57 dBm
Blocking or desensitization detail
Spurious response rejection > 70 dB
Electrical
Primary power 10 to 30 VDC, negative GND
Rx 5 W/13.8 V; 4.8 W/24 V; (Radio part < 2 W)
Tx
Modulation RF power Power consumption
13,8 V 24 V
FSK (Exponential): 4CPFSK, 2CPFSK 0,1 W 13,8 W 13,2 W
1 W 15,2 W 14,4 W
5 W 33,1 W 31,2 W
10 W 41,4 W 38,4 W
QAM (Linear): 16DEQAM, D8PSK, π/4DQPSK 0.5 W

1.0 W

2.0 W

30.4 W 30 W
Sleep mode 0.1 W
Save mode 2 W
Interfaces
Ethernet 10/100 Base-T Auto MDI/MDIX / RJ45
COM 1 RS232 / DB9F
300–115 200 bps
COM 2 RS232/RS485 SW configurable / DB9F
300–115 200 bps
USB USB 1.1 / Host A
Antenna 50 ohms / TNC female
LED panel
7x tri-color status LEDs Power, ETH, COM1, COM2, Rx, Tx, Status
Environmental
IP Code (Ingress Protection) IP40, IP51
Hazardous locations Ex II 3G Ex ic IIC T4 Gc
Electric power substations environment IEC 1613:2009 Class 1
Seismic qualification IEC 980:1989 (seismic category 1a)
MTBF (Mean Time Between Failure) > 900.000 hours (> 100 years)
Operating temperature −40 to +70 °C (−40 to +158 °F)
Operating humidity 5 to 95% non-condensing
Storage −40 to +85 °C (−40 to +185 °F) / 5 to 95 % non-condensing
Mechanical
Casing Rugged die-cast aluminium
Dimensions 50 H x 150 W x 118 D mm (1.97 x 5.9 x 4.65 in)
Weight 1.1 kg (2.4 lbs)
Mounting DIN rail, L-bracket, Flat-bracket, 19″ Rack shelf
SW
Operating modes Bridge / Router
User protocols on COM Modbus, IEC101, DNP3, PR2000, UNI, Comli, DF1, RP570, Profibus…
User protocols on Ethernet Modbus TCP, IEC104, DNP3 TCP, Comli TCP Terminal server…
Serial to IP convertors Modbus RTU / Modbus TCP, DNP3 / DNP3 TCP
Protocol on Radio channel
Multi master applications Yes
Report by exception Yes
Collision Avoidance Capability Yes
Remote to Remote communication Yes
Addressed & acknowledged serial SCADA protocols Yes
Data integrity control CRC 32
Encryption AES256
Optimization up to 3x higher throughput
Diagnostics and Management
Radio link testing Yes (ping with RSS, Data Quality, Homogenity)
Watched values
(Can be broadcast to neighbouring units. Received info displayed in Neighbours table)
Device – Ucc, Temp, PWR, VSWR, (4)HW Alarm Input.
Radio channel – (4)RSScom, (4)DQcom, TXLost[%]
User interfaces – ETH[Rx/Tx], COM1[Rx/Tx], COM2[Rx/Tx]
Statistics For Rx/Tx Packets on User interfaces (ETH, COM1, COM2) and for User data and Radio protocol (Repeates, Lost, ACK etc.) on Radio channel
Graphs For Watched values and Statistics
History (Statistics, Neighbours, Graphs) 20 periods (configurable, e.g. days)
SNMP SNMPv1, SNMPv2
Trap alarms generation for Watched values
Monitoring Real time/Save to file analysis of all physical interfaces (RADIO, ETH, COM1, COM2) and some internal interfaces between software modules (e.g. Terminal servers, Modus TCP server etc.)
Standards
CE (RED)FCCATEX, RoHS
Radio ETSI EN 300 113-2 V1.5.1
ETSI EN 302 561 V1.3.2
FCC Part 90
EMC (electromagnetic compatibility) ETSI EN 301 489-1 V1.9.2
ETSI EN 301 489-5 V1.3.1
IEEE 1613:2009 Class 1
Safety EN 60950-1:2006
EN 60950–1:2006/A11:2009
EN 60950–1:2006/A12:2011
EN 60950–1:2006/A1:2010
Vibration and shock EN 61373:1999
Seismic qualification IEC 980:1989 (seismic category 1a)
Hazardous locations EN 60079-0:2012
EN 60079-11:2012

(1) 50 kHz channel spacing is HW dependend. Units with older version boards are still in production. 50 kHz channel spacing requirement kindly specify in your order; 6.25 kHz channel spacing is not available for RipEX-928

(2) Data speed varies and depends heavily on the data structure, optimization effectivity, protocol on Radio channel, signal budgets and many other parameters of the network. Practical tests are recommended.

(3) for output power 10 W it is recommended to use input power above 11 VDC, RipEX-470, RipEX-928 – max. RF Output power 8W

(4) not broadcast

  • Polling, Report-by-exception, Mesh
  • SCADA & Telemetry
  • Water
  • Oil & Gas
  • Electricity
  • Smart grid
  • POS & ATM
  • Lottery
  • Weather
  • References
  • Redundant hot standby chassis (fully monitored, hot swappable, 1+1 redundant)
  • Two booted-up standard RipEX units inside
  • Automatic switchover capability on detection of failure
  • Suitable for Central sites, Repeaters or Important remote sites where no single point of failure is required
  • Details
  • Part No.: RipEX-HS
ripex_hs01
  • For WiFi service access to the web interface via USB connector
  • Built-in DHCP server (up to 5 leases)
  • To access the RipEX always use the fixed IP 10.9.8.7
  • Part No.: OTH-W1-WIFI
edimax_17
  • Für den Servicezugriff auf das Webinterface über USB Anschluß
  • Eingebauter DHCP Server
  • Zugriff auf RipEX immer über die feste IP 10.9.8.7
axaga-ade_xa
  • Für 3 Stück RipEX
  • Geeignet für funktionale Demonstration
  • Enthält alle RipEX Zubehörteile
  • Fertig für einen kompletten Anwendertest
  • Verwendung für Funkausleuchtungen (N Anschluß für externe Antenne, Batterie Versorgung)
  • Robustes und widerstandsfähiges Ultra schlagfestes ABS Plastik.
  • Staubdicht, Luftdicht, Wasserdicht
  • Inhalt
    • Halter zur Installation von drei RipEX’s (Funkmodems sind nicht im Lieferumfang enthalten)
    • 1x MS2000/24 Spannungsversorgung
    • 1x Backup Batterie Datasheet
    • 3x Dummy load Antennen
    • 1x Pig-tail zum Anschluß einer externen Antenne
    • 1x L-Halter, 1x Flach-Halter Muster
    • 1x X5 – ETH/USB Adapter
    • 1x Wifi Adapter
    • 1x Spannungskabel
  • Außenabmessungen: 455 x 365 x 185 mm
  • Gewicht ca. 4 kg (inkl. der RipEx’s)
case_01b
  • Externe Befestigung
  • Für vertikale Montage
  • Auf DIN Rail oder direkt auf die Montageoberfläche
l_bracket_01b
  • Externe Befestigung
  • Für flache Montage
  • Direkt auf die ebene Oberfläche (Schrank, Wand)
f_bracket_01b
  • Eine 19“ Höheneinheit
  • Fertig zur Montage mit einem RipEX
  • Kann geliefert werden mit installierten Spannungsversorgungen:
    • 100 – 256 V AC / 24 V DC
    • Standard 230 V AC / 24 V (12 V) DC
    • Standard 48 V DC / 24 V (12 V) DC
    • MS2000/12 + Back up Batterie
rack_singleb_2
  • Eine 19“ Höheneinheit
  • Fertig zur Montage mit zwei RipEX’es
  • Kann geliefert werden mit zwei installierten Spannungsversorgungen
    • 100 – 256 V AC / 24 V DC
    • Standard 230 V AC / 24 V (12 V) DC
    • Standard 48 V DC / 24 V (12 V) DC
rack19_2b
supply_01
  • Für Testbetrieb im Labor
  • 50 Ohm
  • Bis 1 W Ausgangsleistung
dummy_01b
  • Surge protection for high-frequency transceveirs up to 750 watts
  • Wide-frequency range from 100 MHz to 512 MHz
  • Deployed between zones PLZ0A(B) and LPZ1
  • Also suitable for the PLZ0A zone, serving as a lightning conductor
  • Low VSWR
  • Continuous RF performance after surge (no fuse, automatic reset)
  • N(f) / N(f) connectors
  • Flexible bulkhead and bracket mounting capabilities
  • Datasheet OTH-VHF50HN
  • Part No.: OTH-VHF50HN
vhf50ed
  • 50 cm (19.7 in)
  • RG58
  • TNC male – N male
  • For antenna feedline extension inside of the cabinet, e.g. between RipEX and antenna surge protection
  • Part No.: RipEX_C_NM_50
feedline_cable_b
  • For Migration Solution
  • Automatically manages antenna switching: when one base station transmits, the other one is disconnected from the common antenna
  • Attenuation between antenna connectors > 50 dB
  • Insertion loss max. 4.5 dB in full frequency range
  • RF output power of connected second radio modem up to 25 watts (duty cycle 50%)
  • Different models for different frequency bands: 135-174 MHz, 300-340 MHz, 400-470 MHz
  • Includes 3 cables RG58 each 50 cm (20 in) long: 1x SMA(f)-TNC(m), 2x SMA(f)-N(f)
  • Panel or DIN rail mounting
  • Part No.: RipEX_MIG_AAS
AAS
  • For Migration Solution
  • RS232 cable between RipEX and legacy base station
  • 2m (80 in) long
  • Crossing cable (null-modem), Rx->Tx, Tx->Rx, GND
  • ‘Carrier On’ contact for legacy base station keying (Relay Dry Contact), managed by CTS envelope from RipEX
  • DSUB9M – DSUB9M, ‘open wires’ for ‘Carrier On’ contact for legacy base station
  • Part No.: RipEX_MIG_232
migration_serial
  • Heavy duty, tested in all environments
  • 3rd party products, recommended by RACOM
  • Frequency ranges correspond with RipEX one‘s
  • Dipoles, Double dipoles, Short and Long Yagi‘s for all bands
Antenna types and details
antenna_01

Calculations 

RipEX settings

Operating Mode
Radio protocol
ACK
Channel spacing [kHz]
Mode
Modulation type
Modulation rate [kbps]
FEC

 

Use our calculations for a simplistic overview of RipEX network performance. RipEX settings are common for both independent parts – Payload bitrate and Netwok performance. Payload bitrate gives you a quick and easy idea of the possible bitrate in the RipEX network. Network performance is the more robust and detailed option. See the details in respective helps.

Payload bitrate 

Based on this calculation, one can see the effect packet length has on the resulting bitrate. Since the RipEX radio protocol overhead per packet is fixed, the longer the user data are, the higher the payload bitrate.

 Average message size bytes
User data size without any headers (IP, TCP, UDP, …).
 Payload bitrate kbps
The payload bitrate in kbps. Since RipEX uses customized IP packet on the Radio channel, payload bitrate includes 28 bytes of IP packet overhead – 20B IP header and 8B UDP header. This calculation assumes using the UDP as the Layer 4 protocol. If you are using TCP, the resulting bitrate would be lower due to higher TCP overhead – you can use our TCP proxy functionality to optimize the communication (see the Manual).
 One-hop forwarding time msec
The average time in milliseconds to transmit a single packet between two RipEX units.

Network performance 

Network performance calculation is intended to give you a quick performance overview based on several basic parameters.

 Total Number of sites
Number of RipEX units in the network. The minimum number of RipEX units is three (including the local unit). The calculations work with collision probabilities in the report-by-exception type of networks and are mainly intended for networks with many (> 5) units.
 Average hops per path to remote
Average hop count to the remote sites. E.g. 9 remote stations directly connected to the center (one radio hop) and one remote station over one repeater (two radio hops) results in 1.1.
Average message size 
User data size without any headers (IP, TCP, UDP, …).
center => remote bytes
remote => center bytes
Interface speed 
Ethernet interface speed or the baud rate [bps] for the serial (COM) interface. Using TCP instead of UDP lowers the total network capacity due to the higher TCP overhead (ETH – UDP/IP and serial options are equal.
center
remote
Processing time 
Time for the RTUs / SCADA devices to process queries.
center msec
remote msec

Polling Cycle (Single master)

 Average RTT per remote msec
Round Trip Time (RTT) is the time required for a packet to travel from the source (SCADA center) to the destination (remote RTU) and back again.
 Total polling cycle sec
The time required for the master (SCADA center) to poll all slaves (remote RTUs) one by one and to receive their responses.

Mesh mode 

In mesh type networks, all radio modems can access each other randomly and spontaneously. Mesh networks can also host polling or report-by-exception applications, even in several instances.
 Total IP network capacity bytes/sec
Total network capacity in bytes per second (includes IP packet overhead). The resulting number refers to the maximum number in the optimally designed RipEX network. The more hops per path, the less overlap, and consequently more capacity left for simultaneous transmissions from different remotes. That is the reason for a higher capacity with more hops in the network. Nevertheless, that figure can be fully used only when there is a significant portion of communication load among the remotes themselves, or from remotes to e.g. local concentrators. When all messages have eventually to reach the single master station over the same radio channel, any calculation of total network capacity loses its sense, for obvious reasons. Certainly such a "central radio bottleneck" can (and should) be eliminated by e.g. adding extra channels or wire connections to dominant repeaters or bypass dominant repeaters using more radio hops. Generally, every network employing narrowband radios requires "capacity-aware design".
Note: Total network capacity assumes that all radios in the network operate on the same RF channel.
 Total application network capacity bytes/sec
Total network capacity in bytes per second, but no IP packet overhead is included.
 Average message delivery time msec
Average time required for a message to be successfully delivered within the RipEX network in the report-by-exception mode (i.e. from the center to the remote unit).
Radio protocol Flexible only
Radio protocol Flexible only (Operating Mode = Router)
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RipEX - Deutsch
Datasheet Ripex - A4 RipEX_data_A4_de.pdf1 018 kB2015/02/20
RipEX
Datasheet RipEX - A3 - ver.2.0 ripex-dsA3-en.pdf1 542 kB2017/10/12
Datasheet RipEX - A4 - ver.2.0 ripex-dsA4-en.pdf1 296 kB2017/10/12
User manual RipEX ripex-man-en.pdf13 489 kB2017/11/22
DEMO handbook ripex-case-man-en.pdf3 604 kB2016/07/12
RipEX - application notes  
Overview ripex-app-en.pdf213 kB2017/11/29
ARP Proxy & VLAN ripex-app-arpvlan-en.pdf1 139 kB2017/11/23
Address Planning ripex-app-addplan-en.pdf2 598 kB2017/11/20
Auto-speed ripex-app-aspeed-en.pdf1 048 kB2017/11/27
Back-to-Back Repeater ripex-app-b2brep-en.pdf612 kB2017/11/29
Backup Routes ripex-app-backup-en.pdf1 491 kB2017/12/07
Base Driven Protocol ripex-app-bdp-en.pdf1 743 kB2017/11/29
Data Speed ripex-app-dspeed-en.pdf520 kB2017/11/20
GRE Tunnels ripex-app-gre-en.pdf996 kB2017/11/15
IPsec ripex-app-ipsec-en.pdf992 kB2017/11/15
MORSE and RipEX ripex-app-morrip-en.pdf670 kB2017/11/20
Migration Solution ripex-app-mig-en.pdf896 kB2017/11/28
Modbus ripex-app-modbus-en.pdf2 260 kB2017/11/23
Profibus ripex-app-profi-en.pdf531 kB2017/11/20
Radio Channel Access ripex-app-chacc-en.pdf357 kB2017/11/23
SNMP ripex-app-snmp-en.pdf1 377 kB2017/11/27
UNI Protocol ripex-app-uni-en.pdf269 kB2017/11/27
RipEX - case studies  
Power distribution - CFE, Mexico ripex-cs-cfe-en.pdf2 902 kB2016/02/25
Water management - WSC, Malta ripex-cs-wsc-en.pdf1 281 kB2015/09/24
WSC Malta whitepaper wsc-psaila-wp-en.pdf443 kB2015/09/24
RipEX - press releases  
Press release RipEX - CFE tender ripex-pr-cfe-en.pdf233 kB2012/11/02
Press release RipEX - JEPCO tender ripex-pr-jepco-en.pdf200 kB2014/09/17
Press release RipEX - Product launch ripex-pr-launch-en.pdf96 kB2011/06/20
RipEX - info sheets  
Base Driven protocol ripex-base-driven-protocol-is.pdf886 kB2017/11/15
Data speed ripex-data-speed-is.pdf182 kB2017/11/15
Migration solution ripex-migration-solution-is.pdf314 kB2017/11/15
RipEX - firmware
Firmware ra1-RACOM-1.7.1.0.cpio10 967 kB2017/08/17
Firmware Release notes ripex-fw-rn-en.pdf153 kB2017/08/16
MIB database ripex-mib.zip25 kB2017/04/04
Zabbix templates ripex-zabbix.zip79 kB2017/08/17
Antennas  
Antenna 135-150 MHz, dipole, 4.6 dBi ANT-135-MHz-OV138-1.pdf49 kB2013/01/08
Antenna 135-150 MHz, double dipole, 7.6 dBi ANT-135-MHz-OV138-2.pdf51 kB2013/01/07
Antenna 136-150 MHz, omni, 5.1 dBi ANT-136-MHz-KA138-3.pdf46 kB2013/01/11
Antenna 137-144 MHz, 3 Yagi, 8 dBi ANT-137-MHz-SA138-3.pdf53 kB2013/01/08
Antenna 137-144 MHz, 5 Yagi, 10 dBi ANT-137-MHz-SA138-5.pdf53 kB2013/01/08
Antenna 137-144 MHz, 5 Yagi, 10 dBi ANT-144-MHz-SA140-3.pdf53 kB2013/01/08
Antenna 144-152 MHz, 5 Yagi, 10 dBi ANT-144-MHz-SA140-5.pdf53 kB2013/01/08
Antenna 146-158 MHz, omni, 5.1 dBi ANT-146-MHz-KA140-3.pdf46 kB2013/01/11
Antenna 150-174 MHz, dipole, 4.6 dBi ANT-150-MHz-OV160-1.pdf44 kB2013/01/07
Antenna 150-174 MHz, double dipole, 7.6 dBi ANT-150-MHz-OV160-2.pdf51 kB2013/01/07
Antenna 152-162 MHz, 3 Yagi, 8 dBi ANT-152-MHz-SA150-3.pdf53 kB2013/01/08
Antenna 152-162 MHz, 5 Yagi,10 dBi ANT-152-MHz-SA150-5.pdf53 kB2013/01/08
Antenna 152-166 MHz, omni, 5.1 dBi ANT-152-MHz-KA150-3.pdf46 kB2013/01/11
Antenna 158-174 MHz, omni, 5.1 dBi ANT-158-MHz-KA160-3.pdf47 kB2013/01/11
Antenna 159-174 MHz, 3 Yagi, 8 dBi ANT-159-MHz-SA160-3.pdf53 kB2013/01/08
Antenna 159-174 MHz, 5 Yagi, 10.1 dBi ANT-159-MHz-SA160-5.pdf55 kB2013/01/08
Antenna 300-330 MHz, omni, 5.1 dBi ANT-300-MHz-KA300-3.pdf41 kB2013/01/11
Antenna 300-355 MHz, 5 Yagi, 9 dBi ANT-300-MHz-SA300-5.pdf54 kB2012/05/22
Antenna 300-355 MHz, 9 Yagi, 12 dBi ANT-300-MHz-SA300-9.pdf53 kB2012/05/22
Antenna 300-355 MHz, dipole, 4.6 dBi ANT-300-MHz-OV300-1.pdf50 kB2013/01/08
Antenna 300-355 MHz, double dipole, 9.2 dBi ANT-300-MHz-OV300-2.pdf49 kB2013/01/08
Antenna 330-355 MHz, omni, 5.1 dBi ANT-330-MHz-KA330-3.pdf41 kB2013/01/11
Antenna 350-380 MHz, 5 Yagi, 8.7 dBi ANT-350-MHz-SA350-5.pdf54 kB2012/05/22
Antenna 350-380 MHz, 9 Yagi, 12.5 dBi ANT-350-MHz-SA350-9.pdf53 kB2012/05/23
Antenna 350-380 MHz, dipole, 4.6 dBi ANT-350-MHz-OV350-1.pdf43 kB2012/05/22
Antenna 350-380 MHz, double dipole, 9.5 dBi ANT-350-MHz-OV350-2.pdf45 kB2012/05/22
Antenna 350-380 MHz, omni, 5.1 dBi ANT-350-MHz-KA350-3.pdf41 kB2013/01/11
Antenna 380-400 MHz, omni, 5.1 dBi ANT-400-MHz-KA380-3.pdf42 kB2017/06/21
Antenna 380-410 MHz, 5 Yagi, 8.7 dBi ANT-380-MHz-SA380-5.pdf55 kB2012/05/22
Antenna 380-410 MHz, 9 Yagi, 12.5 dBi ANT-380-MHz-SA380-9.pdf54 kB2012/05/22
Antenna 380-410 MHz, dipole, 4.6 dBi ANT-380-MHz-OV380-1.pdf48 kB2013/01/08
Antenna 380-410 MHz, double dipole, 9.5 dBi ANT-380-MHz-OV380-2.pdf50 kB2013/01/08
Antenna 400-432 MHz, omni, 5.1 dBi ANT-400-MHz-KA400-3R.pdf47 kB2013/01/11
Antenna 400-435 MHz, 5 Yagi, 8.6 dBi ANT-400-MHz-SA400-5R.pdf54 kB2012/05/22
Antenna 400-435 MHz, 9 Yagi, 12.7 dBi ANT-400-MHz-SA400-9R.pdf52 kB2012/05/22
Antenna 400-435 MHz, dipole, 4.6 dBi ANT-400-MHz-OV400-1R.pdf47 kB2013/01/08
Antenna 400-435 MHz, double dipole, 9.5 dBi ANT-400-MHz-OV400-2R.pdf49 kB2013/01/08
Antenna 430-470 MHz, 5 Yagi, 8.7 dBi ANT-430-MHz-SA440-5R.pdf54 kB2012/05/22
Antenna 430-470 MHz, 9 Yagi, 12.5 dBi ANT-430-MHz-SA440-9R.pdf53 kB2012/05/22
Antenna 430-470 MHz, dipole, 4.6 dBi ANT-400-MHz-OV430-1R.pdf48 kB2012/05/22
Antenna 430-470 MHz, double dipole, 7.2 dBi ANT-400-MHz-OV430-2R.pdf50 kB2012/05/22
Antenna 440-470 MHz, omni, 5.1 dBi ANT-440-MHz-KA400-3.pdf41 kB2013/01/11
Accessories  
Battery 12V, 5.0Ah (for RipEX_DEMO_CASE) BAT-12V-5Ah.pdf119 kB2012/05/23
Coaxial overvoltage protection 100-512 MHz, N(f)/N(f) OTH-VHF50HN.pdf414 kB2017/05/12
Power supply 85-264VAC/12VDC/75W DIN PWS-AC-DC-DR-75-12.pdf259 kB2012/05/22
Power supply with back-up 90-260VAC/13.8VDC/150W PWS-AC-DC-AD-155-A.pdf351 kB2012/05/22
RipEX Firmware archive