US20050249245A1 - System and method for carrying a wireless based signal over wiring - Google Patents
System and method for carrying a wireless based signal over wiring Download PDFInfo
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- US20050249245A1 US20050249245A1 US11/066,442 US6644205A US2005249245A1 US 20050249245 A1 US20050249245 A1 US 20050249245A1 US 6644205 A US6644205 A US 6644205A US 2005249245 A1 US2005249245 A1 US 2005249245A1
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- telephone
- signal
- digital data
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- frequency band
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M11/00—Telephonic communication systems specially adapted for combination with other electrical systems
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/14—Two-way operation using the same type of signal, i.e. duplex
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/02—Channels characterised by the type of signal
- H04L5/06—Channels characterised by the type of signal the signals being represented by different frequencies
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M11/00—Telephonic communication systems specially adapted for combination with other electrical systems
- H04M11/06—Simultaneous speech and data transmission, e.g. telegraphic transmission over the same conductors
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L27/00—Modulated-carrier systems
- H04L27/26—Systems using multi-frequency codes
- H04L27/2601—Multicarrier modulation systems
Definitions
- the present invention relates to the field of wired communication, and, more specifically, to using wireless oriented signals over a wired medium.
- the technical aspect for allowing the wiring to carry both the service (such as telephony, electricity and CATV) and the data communication signal commonly involves using FDM technique (Frequency Division Multiplexing).
- FDM Frequency Division Multiplexing
- the service signal and the data communication signals are carried across the respective utility wiring each using a distinct frequency spectrum band.
- the concept of FDM is known in the art, and provides means of splitting the bandwidth carried by a medium such as wiring.
- the frequency spectrum is split into a low-frequency band capable of carrying an analog telephony signal and a high-frequency band capable of carrying data communication or other signals.
- a network in a house based on using powerline-based home network is also known in the art.
- the medium for networking is the in-house power lines, which is used for carrying both the mains power and the data communication signals.
- a PLC (Power Line Carrier) modem converts a data communication signal (such as Ethernet IEEE802.3) to a signal which can be carried over the power lines, without affecting and being affected by the power signal available over those wires.
- a consortium named HomePlug Powerline Alliance, Inc. of San Ramon, Calif. USA is active in standardizing powerline technologies.
- a powerline communication system is described in U.S. Pat. No. 6,243,571 to Bullock et al., which also provides a comprehensive list of prior art publications referring to powerline technology and application.
- PLC modem housed as a snap-on module is HomePlug1.0 based Ethernet-to-Powerline Bridge model DHP-100 from D-Link® Systems, Inc. of Irvine, Calif., USA.
- Outlets with built in PLC modems for use with combined data and power using powerlines are described in U.S. Patent Application 2003/0062990 to Schaeffer et al. entitled ‘Powerline bridge apparatus’.
- Such power outlets are available as part of PlugLANTM by Asoka USA Corporation of San Carlos, Calif. USA.
- ISDN Integrated Services Digital Network
- POTS Packet Old Telephone Service
- 3400 Hz portion or “voice band” or “telephone band” of the audio spectrum.
- the familiar POTS network supports real-time, low-latency, high-reliability, moderate-fidelity voice telephony, and is capable of establishing a session between two end-points, each using an analog telephone set.
- telephone any apparatus, without limitation, which can connect to a Public Switch Telephone Network (“PSTN”), including apparatus for both analog and digital telephony, non-limiting examples of which are analog telephones, digital telephones, facsimile (“fax”) machines, automatic telephone answering machines, voice (a.k.a. dial-up) modems, and data modems.
- PSTN Public Switch Telephone Network
- data unit “computer” and “personal computer” (“PC”) are used herein interchangeably to include workstations, Personal Digital Assistants (PDA) and other data terminal equipment (DTE) with interfaces for connection to a local area network, as well as any other functional unit of a data station that serves as a data source or a data sink (or both).
- PDA Personal Digital Assistants
- DTE data terminal equipment
- In-home telephone service usually employs two or four wires, to which telephone sets are connected via telephone outlets.
- the available bandwidth over the wiring is split into a low-frequency band capable of carrying an analog telephony signal (POTS), and a high-frequency band is allocated for carrying data communication signals.
- POTS analog telephony signal
- FDM frequency division multiple access
- Prior art technologies for using the in-place telephone wiring for data networking are based on single carrier modulation techniques, such as AM (Amplitude Modulation), FM (Frequency Modulation) and PM (Phase Modulation), as well as bit encoding techniques such as QAM (Quadrature Amplitude Modulation) and QPSK (Quadrature Phase Shift Keying) and CCK (Complementary Code Keying).
- Spread spectrum technologies to include both DSSS (Direct Sequence Spread Spectrum) and FHSS (Frequency Hopping Spread Spectrum) are known in the art.
- Spread spectrum commonly employs Multi-Carrier Modulation (MCM) such as OFDM (Orthogonal Frequency Division Multiplexing).
- OFDM and other spread spectrum are commonly used in wireless communication systems, and in particular in WLAN networks.
- multi-carrier modulation such as OFDM
- OFDM is employed in such wireless systems in order to overcome the signal impairment due to multipath.
- OFDM orthogonal frequency division multiplexing
- DSP Digital Signal Processors
- a popular approach to home networking is communication via radio frequency (RF) distribution system that transports RF signals throughout a building to and from data devices.
- RF radio frequency
- WLAN Wireless Local Area Network
- ISM Industrial, Scientific and Medical
- a band 902-928 MHz
- B band 2.4-2.484 GHz
- C band 5.725-5.875 GHz
- IEEE 802.11b describes a communication using the 2.4 GHz frequency band and supporting communication rate of 11 Mb/s
- IEEE 802.11a uses the 5 GHz frequency band to carry 54 MB/s
- IEEE 802.11g uses the 2.4 GHz band to support 54 Mb/s.
- a node/client with a WLAN interface is commonly referred to as STA (Wireless Station/Wireless client).
- STA Wireless Station/Wireless client
- the STA functionality may be embedded as part of the data unit, or alternatively may be a dedicated unit, referred to as bridge, coupled to the data unit. While STAs may communicate without any additional hardware (ad-hoc mode), such network usually involves Wireless Access Point (a.k.a. WAP or AP) as a mediation device.
- WAP implements the Basic Stations Set (BSS) and/or ad-hoc mode based on Independent BSS (IBSS).
- BSS Basic Stations Set
- IBSS Independent BSS
- STA, client, bridge and WAP will be collectively referred to herein as WLAN unit.
- Bandwidth allocation for IEEE802.11g wireless in the USA is shown as graph 20 in FIG. 2 , along the frequency axis 27 .
- eleven overlapping channels are defined spaced 5 MHz apart, spanning from 2412 MHz as the center frequency for channel number 1 (shown as 23 ), via channel 2 centered at 2417 MHz (shown as 24 ) and 2457 MHz as the center frequency for channel number 10 (shown as 25 ), up to channel 11 centered at 2462 MHz (shown as 26 ).
- Each channel bandwidth is 22 MHz, symmetrically ( ⁇ 11 MHz) located around the center frequency.
- WLAN unit block diagram 10 is shown in FIG. 1 .
- the wireless physical layer signal is handled in two stages.
- the baseband signal (IF) is generated based on the data to be transmitted, using 256 QAM (Quadrature Amplitude Modulation) based OFDM (Orthogonal Frequency Division Multiplexing) modulation technique, resulting in a 22 MHz (single channel wide) frequency band signal.
- the signal is then up converted to the 2.4 GHz (RF) and placed in the center frequency of the required channel, and wirelessly transmitted via the antenna.
- the receiving path comprises a received channel in the RF spectrum, down converted to the baseband (IF) from which the data is then extracted.
- the WLAN unit 10 connects to the wired medium via port 11 , supporting an IEEE802.3 10/100BaseT (Ethernet) interface.
- the physical layer of this interface is handled by a 10/100BaseT PHY function block 12 , converting the incoming Manchester or MLT3 modulated signal (according to the 1 OBaseT or 100BaseTX coding, respectively) into a serial digital stream.
- a WLAN outgoing digital data stream is modulated to the respective coded signal and transmitted via the port 11 , implementing full duplex communication.
- the internal digital stream may be of proprietary nature of any standard such as MII (Media Independent Interface).
- MII to Ethernet PHY 12 a.k.a.
- Ethernet physical layer or Ethernet transceiver can be implemented based on LAN83C180 10/100 Fast Ethernet PHY Transceiver available from SMSC—Standard Microsystems Corporation of Hauppauge, N.Y. U.S.A. While this function can be implemented by using a single dedicated component, in many embodiments this function is integrated into single component including other functions, such as handling higher layers.
- the PHY block 12 also comprises the isolation magnetics, balancing, surge protection and connector (commonly RJ-45) required for proper and standard interface via port 11 .
- Ethernet 10/100BaseT interface For the sake of simplicity, in the foregoing and subsequent description only Ethernet 10/100BaseT interface will be described. However, it will be appreciated that any wired interface, being proprietary or standard, packet or synchronous, serial or parallel may be equally used, such as IEEE1394, USB, PCI, PCMCIA or IEEE1284. Furthermore, multiple such interfaces (being of the same type or mixed) may also be used.
- the function of block 12 may be omitted.
- MAC Media Access Control
- function block 13 comprising two sub blocks, designated as 10/100 BaseT MAC block 13 a and IEEE802.11g MAC block 13 b (typically, the same MAC device is used for all IEEE802.11 variants, such as a/b/g).
- the MAC block 13 a handles the MAC layer according to IEEE802.3 MAC associated with the wired port 11 .
- Such a function block 13 a may be implemented using LAN91C111 10/100 Non-PCI Ethernet Single Chip MAC+PHY available from SMSC—Standard Microsystems Corporation of Hauppauge, N.Y. U.S.A, which includes both the MAC 13 a and the PHY 12 functionalities.
- the MAC block 13 b handles the MAC layer according to IEEE802.11g MAC associated with the wireless port 22 .
- Such MAC 13 b is designed to support multiple data rates, encryption algorithms and is commonly based on an embedded processor and various memories.
- Such a functional block 13 b may be implemented using WaveLANTM WL60040 Multimode Wireless LAN media Access Controller (MAC) from Agere Systems of Allentown, Pa.
- the data stream generated by the IEEE802.11 g MAC 13 b is converted to an OFDM-based baseband signal (and vice versa) by the baseband processor 18 .
- the baseband processor 18 (a.k.a. wireless modem and IF transceiver) is implemented by a transmitter/receiver 14 digitally processing the data stream, and an analog unit (I-Q modulator) 15 generating the actual signal.
- the communication channel in wireless environments imposes various impairments such as attenuation, fading, multi-path, interferences among others, and the transmitter may process the data stream according to the following functions:
- the processed digital from the transmitter 14 is used to generate the OFDM baseband signal in the modulator 15 .
- the received OFDM baseband signal from functional block 16 is digitized by the modulator 15 , processed by the receiver 14 , transferred to MAC 13 and PHY 12 to be conveyed via port 11 .
- Some implementations of WLAN chipsets provide the actual baseband signal, while others provides orthogonal analog I/Q modem signals which need to be further processed to provide the actual real analog form IF (Intermediate Frequency) OFDM baseband signal.
- a Local Oscillator (LO) determining the IF frequency is used to generate a sine wave which is multiplied by the I signal, added to the Q signal multiplied by 90 degrees shifted LO signal, to produce the real analog IF baseband signal.
- LO Local Oscillator
- Such function can be implemented based on Maxim MAX2450 3V, Ultra-Low-Power Quadrature Modulator/Demodulator from Maxim Integrated Products of Sunnyvale, Calif. U.S.A, a data sheet of which is incorporated herein by reference.
- the baseband processor block 18 may be implemented based on WaveLANTM WL64040 Multimode Wireless LAN Baseband from Agere Systems of Allentown, Pa. U.S.A., whose product brief is incorporated herein by reference. SA5250 Multi-Protocol Baseband from Philips Semiconductors including both baseband processor 18 and MAC 13 b functionalities may be alternatively used.
- the RF-IF Converter functional block 16 shifts the IF OFDM baseband signal from the IF band to the ISM RF band.
- Such frequency conversion may use many methods known in the art.
- a direct modulation transmitter/receiver may be used, such as WaveLANTM WL54040 Dual-Band Wireless LAN Transceiver from Agere Systems of Allentown, Pa. U.S.A., for directly converting the orthogonal I-Q analog signal to the 2.4 GHz RF band.
- superheterodyne (dual conversion, for example) architecture may be used, as described for SA5251 Multiband RF Transceiver from Philips Semiconductors.
- the converter 16 and the baseband processor 18 constitute the wireless path physical layer processor 17 .
- a T/R switch 19 is used to connect the antenna 22 to the transmitter path and disconnect the receiver path (to avoid receiver saturation) only upon a control signal signaling transmission state of the WLAN unit 10 .
- PIN Diode switch based design is commonly used, such as PIN Diode switch SWX-05 from MCE-KDI Integrated Products of Whippany, N.J. U.S.A., whose data sheet is incorporated herein by reference.
- the antenna 22 is coupled via a RF filter 21 in order to ensure transmitting limited to the defined band mask (removing unwanted residual signals), and to filter out noise and out of band signal in the receiving mode.
- Such RF filter 21 may use SAW (Surface Acoustic wave) technology, such as 2441.8 MHz SAW Filter from SAWTEK (A TriQuint company) of Orlando, Fla. U.S.A., whose data sheet is incorporated herein by reference.
- SAW Surface Acoustic wave
- WLAN unit 10 may also involve amplifiers, attenuators, limiters, AGC (Automatic Gain Control) and similar circuits involved with signal level functions.
- a Low Noise Amplifier (LNA) such as MAX2644 2.4 GHz SiGe, High IP3 Low-Noise Amplifier is commonly connected in the receive path near the antenna 22 .
- a Power Amplifier (PA) is used in the transmit path, such as MAX2247 Power Amplifier for IEEE802.11g WLAN. Both the LNA and the PA are available from Maxim Integrated Products of Sunnyvale, Calif. U.S.A.
- LNA Low Noise Amplifier
- PA Power Amplifier
- Both the LNA and the PA are available from Maxim Integrated Products of Sunnyvale, Calif. U.S.A.
- FIG. 1 As well as in the rest of this document.
- a transmitting or a receiving path it should be understood that the opposite path also exists for configuring the reciprocal path.
- outlet denotes an electromechanical device, which facilitates easy, rapid connection and disconnection of external devices to and from wiring installed within a building.
- An outlet commonly has a fixed connection to the wiring, and permits the easy connection of external devices as desired, commonly by means of an integrated connector in a faceplate.
- the outlet is normally mechanically attached to, or mounted in, a wall or similar surface.
- Non-limiting examples of common outlets include: telephone outlets for connecting telephones and related devices; CATV outlets for connecting television sets, VCR's, and the like; outlets used as part of LAN wiring (a.k.a. structured wiring) and electrical outlets for connecting power to electrical appliances.
- wall herein denotes any interior or exterior surface of a building, including, but not limited to, ceilings and floors, in addition to vertical walls.
- IEEE802.11x e.g. IEEE802.11a/g/b
- BlueToothTM e.g. BlueToothTM
- UWB Ultra WideBand
- others are limited to tens of meters in free line of sight environment. In common building environments, wherein walls and other obstacles are present, the range may be dramatically reduced. As such, in most cases a single wireless unit (such as an access point) cannot efficiently cover the whole premises. In order to improve the coverage, multiple access points (or any other WLAN units) are commonly used, distributed throughout the premises.
- a wired backbone is commonly used, to which the access points are connected.
- a network combining wired and wireless segments is disclosed for example in U.S. Pat. No. 6,330,244 to Swartz et al.
- Such a configuration is popular today in offices, businesses, enterprises, industrial facilities and other premises having a dedicated wiring network structure, commonly based on Category 5 cabling (a.k.a. structured wiring).
- the access points interface the existing wiring based on local area network (LAN), commonly by a standard data interface such as Ethernet based 10/100BaseT.
- connection of a WLAN unit to the powerline requires both wireless and powerline modems for handling the physical layer over the two media involved, as well as a complex MAC (Media Access control) to bridge and handle the two distinct protocols involved.
- this solution is complex, expensive and offers low reliability due to the amount of hardware required.
- a standard wireless baseband signal that is conducted by existing wireless components (widely used for wireless transmission), is coupled and carried by a wiring, as a substitute for a dedicated wiring modem.
- a network (such as local area network) can be configured over the wiring, either in bus topology, point-to-point or any other arbitrary network topology.
- the invention is based on a WLAN unit design, comprising a wired data port and a wireless port (e.g. antenna) and enabling a data unit connected to the wired data port (either proprietary or standard) to wirelessly communicate with other data unit.
- a device is based on a WLAN data design.
- the baseband signal is used, so that the baseband to RF portion (hereinafter ‘RF portion’) of the WLAN unit may be obviated.
- the baseband signal may be coupled to the wiring via isolation, analog switching, driver and receiver, filtering and impedance matching functionalities, allowing for networking over the wiring with one or more similar devices coupled thereto.
- the RF portion of the WLAN unit is also used.
- an up/down converter is connected to the RF port (instead of connecting antenna thereto). The converter shifts the center frequency down to a band usable over the wiring.
- the full functionality of the WLAN unit is retained, including both the antenna and the RF portion.
- a wiring port coupled either directly to the baseband signal or to the RF signal via an up/down converter is added.
- a three ports sharing device is formed, having a wiring port, wireless (antenna) port and data unit port.
- Data units connected to a network comprising such multiple devices may be interconnected by the wired medium (via the wiring) or via the air using the RF signals propagating through the air.
- the device comprises only the RF portion of a WLAN unit (including antenna).
- the antenna RF signal is frequency shifted by an up/down converter to a frequency band usable by the wiring (e.g. baseband signal).
- a similar device or a device according to any of the above embodiments connected to the wiring may couple to the signal, and use it for coupling to a data unit either directly or wirelessly.
- the wiring is utility wiring in a building, such as telephone, CATV or AC power wiring.
- the utility wiring also carries an active service signal (e.g. telephone, CATV or AC power signal respectively)
- FDM technique is used, wherein the service signal and the baseband signal are carried in distinct frequency bands.
- the device further provides a service connector allowing a service unit to be connected thereto.
- various filters are employed in order to isolate the service signal from the baseband signal, to avoid any interference between the two signals.
- the device may be comprised in a data unit. Alternatively, the device may be enclosed as a stand-alone dedicated unit. In another aspect of the present invention, the device is comprised within a service outlet. Alternatively, the device may be enclosed as outlet add-on module.
- the device may be locally powered by a dedicated connection to a local power source (e.g. AC power, directly or via AC/DC converter).
- a local power source e.g. AC power, directly or via AC/DC converter.
- the device is power fed from a power signal carried over the wiring.
- a circuitry isolating the power signal carried over the wiring is employed.
- the device is powered by a data unit connected thereto.
- spread spectrum either DSSS or FHSS
- FHSS frequency division multiple access
- a multi-carrier modulation e.g. OFDM, DMT or CDMA
- a wired medium such as utility wiring in a building (e.g. telephone wiring).
- FIG. 1 shows schematically a general functional block diagram of a prior art WLAN unit.
- FIG. 2 shows schematically the frequency spectrum allocation of IEEE802.11g standard.
- FIG. 3 shows schematically a general functional block diagram of an exemplary OFDM modem according to the invention.
- FIG. 4 shows schematically the frequency spectrum allocation over the telephone wiring according to the invention.
- FIG. 5 shows schematically a general functional block diagram of an exemplary up/down converter according to the invention.
- FIG. 6 shows schematically a general functional block diagram of an exemplary OFDM modem according to the invention.
- FIG. 6 a shows schematically a general functional block diagram of an exemplary line interface according to the invention.
- FIG. 6 b shows schematically a general functional block diagram of an exemplary network according to the invention.
- FIG. 7 shows schematically a general functional block diagram of an exemplary network according to the invention.
- FIG. 8 shows schematically a view of an exemplary telephone outlet according to the invention.
- FIG. 9 shows schematically a view of an exemplary telephone module according to the invention.
- FIG. 10 shows schematically a general functional block diagram of an exemplary OFDM modem according to the invention.
- FIG. 10 a shows schematically a general functional block diagram of an exemplary OFDM modem according to the invention.
- FIG. 11 shows schematically a view of an exemplary telephone module according to the invention.
- FIG. 12 shows schematically a general functional block diagram of an exemplary network according to the invention.
- FIG. 13 shows schematically a general functional block diagram of an exemplary OFDM modem according to the invention.
- FIG. 14 shows schematically a general functional block diagram of an exemplary network according to the invention.
- FIG. 15 shows schematically a general functional block diagram of an exemplary OFDM modem according to the invention.
- FIG. 16 shows schematically a general functional block diagram of an exemplary OFDM modem according to the invention.
- FIG. 17 shows schematically a general functional block diagram of an exemplary network according to the invention.
- FIG. 3 A wireless based OFDM modem 30 adapted for operating over telephone wiring according to one or more embodiments of the present invention is described in FIG. 3 .
- OFDM modem 30 is primarily based on the design and components shown as WLAN unit 10 in FIG. 1 .
- the RF signal is not coupled to antenna 22 , but rather connect to an up/down converter 31 .
- the converter 31 shifts the ISM band baseband signal to a band usable over telephone wiring in home/office or any other building. Owing to FCC regulation in North America regarding radiated electromagnetic emission, the usable frequency band is considered to extend up to 30 MHz.
- a spectrum allocation for a baseband signal occupying 22 MHz may be between 8 MHz and 30 MHz (centered around 19 MHz), as shown in curve 43 being part of graph 40 in FIG. 4 , illustrating the various power levels allocation along the frequency axis 44 .
- Such allocation allows for ADSL signal 42 using the 100 KHz (or 25 KHz) to 1.1 MHz and the POTS signal curve 41 .
- ADSL is an acronym for Asymmetric Digital Subscriber Line uses standard phone lines to deliver high-speed data communications both upstream and downstream, using a part of a phone line's bandwidth not used for voice so as to allow simultaneous voice and data communication.
- a High Pass Filter (HPF) 32 is connected between the converter 31 and the telephone wiring connector 36 .
- the telephone wiring connector 36 in commonly a telephone standard RJ-11 plug used in North America, allowing for coupling the OFDM modem 30 to the telephone pair.
- the HPF 32 may use passive components implementing a Butterworth filter scheme.
- a telephone unit is required to share the same telephone wiring connector 35 .
- a Low Pass Filter (LPF) 34 is used to isolate the POTS frequency band, allowing a telephone set to couple to the telephone connector 35 via a telephone jack (e.g. RJ-11 jack).
- LPF 34 Any common filter used to isolate POTS and ADSL signals (a.k.a. micro-filter) may be used as LPF 34 , comprising discrete capacitors and inductors). Such configuration of connecting modem and telephone via a set of LPF and HPF units is known in the art and commonly used also in HomePNA environment.
- OFDM and other spread spectrum modulation techniques are known to be powerful, robust and high-performance. Yet, their implementation complexity and associated costs have militated against their use in communication systems. Even the first WLAN technologies introduced used single-carrier technologies, such as IEEE802.11b using CCK. As such, the OFDM modem 30 shown in FIG. 3 may be used as a superior substitute to the prior art HomePNA based phonelines communication. Since the powerful OFDM technology is used, the modem performance is expected to exceed any available or future HomePNA technology using single carrier modulation (such as QAM) as known in the prior-art.
- single carrier modulation such as QAM
- the modem utilizes existing off-the-shelf wireless oriented components such as the wireless MAC 13 b , the baseband processor 18 and the RF-IF converter 16 , the required effort to develop a dedicated modem is obviated. Furthermore, the rapid proliferation of the WLAN solutions to the residential, office, enterprise and industrial applications, a trend expected to even grow in the future, indicates a high volume of WLAN components, resulting in easy availability, low price and ensured interoperability.
- Up/Down converter 31 used for shifting the frequency as described above is well known in the art. Such converters are known to use mixing and filtering techniques, and may use single or multiple stages (Superheterodyne scheme) as well as Direct Conversion (DC) architecture.
- a non-limiting example for Up/Down Converter function block 37 shown in FIG. 3 to include the functions of the converter unit 31 , the RF filter 21 and TX/RX Switch 19 , is shown as block 50 in FIG. 5 .
- Such a block 50 shifts the frequency of the RF signal coupled to port 51 to a low frequency (IF) signal in port 68 .
- RF Signal received in port 51 is shifted down by a down channel based on mixer 57 a and Band Pass Filter (BPF) 58 a and is outputted at port 68 .
- BPF Band Pass Filter
- an IF signal received in port 68 is shifted to the RF band by the up channel comprising mixer 57 b and BPF 58 b , and as RF signal outputted via port 51 .
- the RF port 51 is coupled to the HPF 32 of the OFDM modem 30 and the IF port 68 is coupled to the RF-IF converter 16 of the OFDM modem 30 .
- a RF signal received in port 51 is first filtered by the BPF 52 to remove any unwanted signals residing outside the frequency band of the RF channel (e.g. the ISM RF channel band). Since the converter 50 allows conversion in only one direction at a time, either up or down, ganged switches 56 a and 56 b are used, having a center pole marked as (1) and two throw states marked as (2) and (3). When converting from RF to IF, both switches 56 a and 56 b are in the (2) state, hence the down channel is operative. Such a switch may be based on PIN diode as explained above regarding switch 19 .
- the RF signal from the RF port 51 couples to mixer 57 a via BPF 52 and switch 56 a .
- the mixer 57 a multiplies the local oscillator 54 sine wave signal provided to its LO port via a splitter 55 by the RF signal coupled to its RF port (using its non linear characteristics), yielding in its IF port a signal having two main components, one around the sum of the frequencies and one around their difference.
- the frequencies' sum signal is then filtered out by the BPF 58 a , and fed to the IF port 68 via the switch 56 b .
- a driver 59 may also be included in order to allow proper driving of the load connected to port 68 .
- an IF signal from port 68 (originated in the telephone pair, and coupled via connector 36 and HPF 32 ), is routed via the switch 56 b (now in state (3)) to the IF port of mixer 57 b , via BPF 58 b .
- a signal is also fed from the local oscillator 54 via splitter 55 to the LO port of the mixer 57 b , which outputs an RF signal to port 51 via the switch 56 a (now in state (3)) and BPF 52 .
- a level detector (or comparator) 53 is used to monitor the level of the revived RF signal, and accordingly operate the switches 56 a and 56 b via control channels 69 b and 69 a respectively.
- the converter 50 has been described above as having dedicated up and down channels. However, since only one channel is used at a time and the two channels are not used simultaneously, a single channel (mixer) may also be used, wherein an appropriate switching mechanism is employed.
- a level detector 53 may be designed based on LM311 Voltage Comparator available from National Semiconductors headquartered in Santa-Clara, Calif. U.S.A.
- the local oscillator 54 may be based on quartz crystal oscillator, wherein the frequency is multiplied using Phase Locked Loop (PLL) circuits, and may comprise T83027 PLL Clock Generator IC with VCXO available from TLSI Incorporated of Huntington, N.Y. U.S.A., whose data sheet is incorporated herein by reference.
- PLL Phase Locked Loop
- a mixer 57 may be designed based on MAX9993 High Linearity 1700 MHz Down-Conversion Mixer with LO Buffer/Switch available from Maxim Integrated Products of Sunnyvale, Calif.
- converter block 50 may connect to the telephone wiring using line interface functionalities such as isolation, impedance matching, driving/receiving and filtering, as will be described below for line interface 76 shown in FIG. 6 .
- the OFDM modem 30 inherently employs double frequency conversions: from IF to RF by converter 16 and back to low frequency by converter 31 . This redundancy may be obviated by directly extracting the baseband signal without going through the RF stage, as shown in OFDM modem functional block diagram 60 illustrated in FIG. 6 , which may be used in one or more embodiments of the present invention.
- modem 60 is based on WLAN unit 10 described in FIG. 1 .
- the OFDM baseband signal generated by the broadband processor 18 is not frequency shifted to RF, but rather handled directly in the IF spectrum.
- the baseband processor 18 provides an orthogonal analog I/Q signal pair.
- a line interface 76 using a Quadrature Modulator/Demodulator 191 shown in FIG. 6 a converts the signals directly to a baseband analog signal centered around 19 MHz (for example by using 19 MHz local oscillator) in the example of spectrum allocation according to graph 40 .
- an analog signal centered around another frequency is output by the WLAN components comprising baseband processor 18 , and in such a case a simple and single frequency conversion may be used in order to center the signal around 19 MHz.
- FIG. 6 a A functional block diagram of the line interface 76 is shown in FIG. 6 a .
- the line interface 76 couples to the I-Q modulator 15 in the baseband processor 18 via port 192 .
- the I-Q signals are converted into a single real signal centered around the 19 MHz frequency (shifted from zero) by the Quadrature Modulator/Demodulator 191 , which may be based on Maxim MAX2450 3V, Ultra-Low-Power Quadrature Modulator/De-modulator from Maxim Integrated Products of Sunnyvale, Calif. U.S.A, whose data sheet which is incorporated herein by reference.
- the Modulator/Demodulator output impedance is 75 ohms terminated by a resistor 190 (if required), and fed to a driver 186 via BPF 188 a , passing only the required band (e.g. band 43 in graph 40 ).
- An analog switch 183 routes the transmitted signal to the telephone wiring (via port 36 and HPF 32 ) via an isolation unit 182 and through port 181 .
- the isolation unit 182 is typically based on a signal transformer 193 , and serves to reduce common-mode noises so as to provide a balanced signal, as well as meeting the required safety and ESD requirements imposed by the UL in the U.S.A. and CE in Europe.
- a signal received from the telephone wiring is isolated by the isolation unit 182 , and routed via the analog switch 183 to an AGC 187 .
- a 100 Ohm resistor 185 serves as a termination, matching the telephone wiring characteristic impedance to avoid reflection.
- the signal is I-Q modulated by the modulator 191 and coupled to the baseband processor 18 .
- FIG. 6 b A sample network 75 over a telephone line using OFDM modems is shown in FIG. 6 b .
- a telephone wiring infrastructure as commonly exists in residences in North America is described, based on single telephone pair 62 accessed via outlets 63 .
- a daisy-chain configuration is shown, wherein wiring segment 62 d connects outlets 63 d and 63 c , wiring segment 62 c connects outlets 63 b and 63 c and wiring segment 62 b connects outlets 63 a and 63 b .
- Wiring segment 62 a connects the ‘first’ outlet 63 a to the PSTN (Public Switched Telephone Network) 61 via a junction box (not shown) and the external wiring part known as ‘local loop’ or ‘subscriber loop’.
- PSTN Public Switched Telephone Network
- Outlets 63 a , 63 b , 63 c and 63 d respectively comprise jacks 64 a , 64 b , 64 c and 64 d .
- Other wiring topologies such as ‘star’ (a.k.a. ‘HomeRun’, ‘structured wiring’), tree and mixed topologies are also available, and are also suitable.
- OFDM Modems 30 and 60 may be connected to and networked over the telephone wiring 62 by connecting to the respective RJ-11 telephone connector 64 in outlet 63 , and via cable 74 to the OFDM modem connector 36 , marked as ‘wiring’ connection.
- a network may include only OFDM modems 30 as shown functionally in FIG. 3 , or only OFDM modems 60 as shown functionally in FIG. 6 or any combination thereof.
- the network 75 is shown to include an OFDM modem 30 b connected by a cable 74 d to outlet 63 d , an OFDM modem 60 a connected by a cable 74 b to outlet 63 b and OFDM modem 30 a connected by a cable 74 a to outlet 63 a .
- connection to the outlets is via the respective connectors 64 d , 64 b and 64 a .
- Computer 66 a is shown connected to the OFDM modem 30 b via its ‘data’ port (representing port 33 in FIG. 3 ), and computer 66 b is connected to OFDM modem 60 a via its ‘data’ port (representing port 33 in FIG. 6 ).
- the computers 66 represent any data units, preferably connected via a standard wired data interface.
- the modems 30 a and 60 a allow a half duplex communication between the computers 66 a and 66 b over the telephone wiring.
- additional OFDM modem 30 a may also support an additional data unit through its ‘data’ port.
- Telephone set 65 a is connected to the wiring 62 (so as to connect to the PSTN 61 ) via the ‘TEL.’ Port (port 35 in FIG. 3 ).
- telephone sets 65 c and 65 d connect to the PSTN 61 (via the respective outlets 63 and wiring 62 ) by connecting to OFDM modems 60 a and 30 a , respectively.
- Telephone set 65 b is directly connected to outlet 63 c (via cable 74 c and plug/jack 64 c ). In such a case, the usage of LPF 34 (a.k.a. micro-filter) is recommended in order to avoid interference to and from the other signals using the same telephone wiring as a medium.
- a device connected to the external network is commonly employed, non-limiting examples including a DOCSIS based cable modem, an ADSL modem, wireless (such as WiMax) and others.
- a device should be connected to the ‘data’ port of any OFDM modem, hence allowing sharing the external connection to data units connected throughout the building.
- an ADSL modem 67 is used.
- the ADSL modem is shown to connect to the telephone outlet 63 a via cable 74 e for coupling to the ADSL signal 42 (depicted in FIG. 4 ), and providing a standard data interface (e.g. USB, 10/100BaseT).
- This data interface in turn connects to the OFDM modem 30 a ‘data’ port, thus allowing computers 66 a and 66 b to share the ADSL connection via the formed network.
- the OFDM modem 30 a is likewise connected to the telephone outlet 63 a via a cable 74 a (together with cable 74 e ).
- While network 75 has been described with regard to ‘bus’ topology wherein all the modems are connected to the same medium (telephone wiring 62 ), it is known that better communication performance (e.g. data-rate) may be achieved in point-to-point structure, wherein two modems are connected at the ends of a wiring segment.
- Such configuration may exist in newly installed infrastructures (e.g. structured wiring in a newly constructed building) or in MDU (Multiple Dwelling Unit), MTU (Multiple Tenant Unit) and MHU (Multiple Hospitality Unit).
- the wiring segments are in ‘star’ topology, wherein each wiring segment connects a remote site (e.g. apartment) to a center (e.g. basement).
- FIG. 7 An application of OFDM modems to such topology is shown as a non-limiting example as network 70 in FIG. 7 .
- the infrastructure of network 70 is described as comprising two wiring segments (each comprising a single pair) 72 a and 72 b , respectively connected between connection points 73 a and 73 b (e.g. in junction box) and respective outlets 63 a and 63 b , allowing telephone connection via the respective connectors 64 a and 64 b .
- OFDM modems either modem 30 or modem 60 types
- OFDM modem 60 a connects to wiring segment 72 a via outlet 63 a , communicating over the wiring segment 72 a with OFDM modem 30 a connected to the other end of the wiring segment 72 a via connection point 73 a .
- Telephone signals are carried over the lower band, allowing telephone set 65 a to connect to PSTN 61 , simultaneously with the OFDM signal carried over a distinct band and connecting the computer 66 a (representing any data unit) to the Internet 71 (via any connection such as ADSL DOCSIS cable modem or wireless).
- OFDM modem 30 c connects to wiring segment 72 b via outlet 63 b , communicating over this pair with OFDM modem 30 b connected to the other end via connection point 73 b .
- Telephone signals are carried over the lower band, allowing telephone set 65 b to connect to PSTN 61 , simultaneously with the OFDM signal carried over a distinct band and connecting the computer 66 b (representing any data unit) to the Internet 71 (via any connection such as ADSL DOCSIS cable modem or wireless).
- Outlets in general have traditionally evolved as passive devices being part of the wiring system house infrastructure and solely serving the purpose of providing access to the in-wall wiring.
- active circuitry in the outlet in order to use them as part of the home/office network, and typically to provide a standard data communication interface.
- the circuits added serve the purpose of adding data interface connectivity to the outlet, added to its basic passive connectivity function.
- the outlet circuitry is used to provide additional interfaces to an outlet, beyond the basic service of single data connectivity interface.
- it may be used to provide multiple data interfaces wherein the wiring supports single such data connection.
- An example of such outlet is the Network JackTM product family manufactured by 3ComTM of Santa-Clara, Calif., U.S.A.
- such outlets are described in U.S. Pat. No.
- outlets described above use active circuitry for splitting the data and service signals
- passive implementations are also available.
- An example of such passive outlet is disclosed in WO 02/25920 to Binder entitled ‘Telephone communication system and method over local area network wiring’.
- Such outlets are available as part of the etherSPLITTM system from QLynk Communication Inc. of College Station, Tex. USA.
- the cables 74 connected to the outlets 63 in system 75 are known as ‘taps’.
- Cable 74 c terminated in the LPF 34 is considered an ‘open tap’ or ‘bridged tap’.
- the same goes for cable 74 e , terminating the ADSL band, but open for higher frequencies.
- Cable 74 b (as a non-limiting example) is considered a ‘terminated tap’, since appropriate termination is expected to be part of the OFDM modem 60 a .
- Taps in general and non-terminated taps in particular, are considered a major impairment in any wired communication system.
- Reflections are generated at the tap points and at the ends of open taps, resulting in a ‘notch’ pattern in the appropriate frequency. Such characteristics render part of the spectrum non-usable. As such, taps results in lower communication performance, and it is therefore desirable to eliminate taps as much as practical.
- Wireless system in general, and WLAN systems in particular are associated with mobile and handheld devices such as PDA (Personal Digital Assistant), cellular phone, remote-controller and laptop computers.
- PDA Personal Digital Assistant
- cellular phone cellular phone
- remote-controller remote-controller
- laptop computers Being mobile and man-carried, the space and weight of the wireless components is critical. As such, a lot of resources are allocated to integration and miniaturization efforts in order to make the wireless components as small as possible. Vendors are increasingly focusing on integrating more and more functions into a minimum set of chips and peripherals. Hence, the small dimension featured by the wireless components makes them well suitable to be housed within small enclosures such as outlets.
- the OFDM modem (partially or completely) is integrated into a telephone outlet.
- such configuration eliminates the tap related impairments, thus improving the communication performance.
- the cable 74 d is effectively zero in length, hence effectively eliminating the tap existence.
- FIG. 8 A pictorial view of such outlet integrating OFDM modem functionality is shown as outlet 80 in FIG. 8 .
- the telephone wiring connector 36 is in the back of the outlet (facing the wall), for connecting to the wiring in the common way of connecting wiring to a telephone outlet.
- the outlet 80 front (facing the room) comprises connector 33 , shown as RJ-45 for 10/100BaseT interface.
- a telephone connector 35 a is shown as standard telephone connector RJ-11 jack.
- a second connector 35 b may also be used for allowing connection to multiple telephone sets.
- the outlet 80 also comprises indicators 81 a and 81 b (LEDs) that may be used to indicate proper operation such as power availability, communication status (such as LINK signal in Ethernet systems), communication performance and others.
- the above-described outlet 80 is a complete and self-contained device. As such, it can be easily installed in new houses instead of regular passive simple outlets. However, such solutions are not appropriate in the case of retrofitting existing wiring systems. In most cases, any such modification will require dismantling the existing outlets and installing the new ones having the improved features. Such activity is cumbersome, expensive and will often require professional skill. Furthermore, owing to safety aspects involved while handling hazardous voltages (such as in the powerlines and telephone lines), local regulations may require only certified personnel to handle the wiring, making it expensive and militating against a do-it-yourself approach.
- the data interface may need to be upgraded to interconnect with new standards.
- the circuitry may need to be upgraded to support higher bandwidth.
- management and Quality of Service (QoS) functionalities may need to be either introduced or upgraded.
- additional functionalities and interfaces may need to be added.
- plug-in module For use with powerline communication are described in U.S. Patent Application 2002/0039388 to Smart et al. entitled ‘High data-rate powerline network system and method’, U.S. Patent Application 2002/0060617 to Walbeck et al. entitled ‘Modular power line network adaptor’ and also in U.S. Patent Application 2003/0062990 to Schaeffer, JR et al. entitled ‘Powerline bridge apparatus’.
- a module using HomeplugTM technology are available from multiple sources such as part of PlugLinkTM products by Asoka USA Corporation of San Carlos, Calif., USA.
- plug-in modules are known only with regards to power outlets, and are not available for telephone or CATV outlets.
- a plug-in module according to one or more embodiments of the present invention is shown as module 90 in FIG. 9 .
- the module 90 is based on the outlet 80 described above. However, in contrast to being an outlet, the module 90 has an RJ-11 plug that plugs in the RJ-11 jack 93 of the telephone outlet 91 , the latter thus not requiring replacement or modification.
- the module 90 comprises two sliding sides 94 a and 94 b , which are latched and pressed against the outlet 91 surfaces 92 a and 92 b respectively. In this way, the module 90 is both electrically connected to the wiring and mechanically attached to outlet 91 , while not requiring any specific skills or tools.
- the POTS service is fully retained through the telephone connectors 35 a and 35 b.
- Both OFDM modems 30 and 60 described above offer two wired ports, namely the data unit port 33 and the telephone wiring port 36 , and function to convert signals between those ports. Adding a wireless port will enable the OFDM modems also to network with data units over a non-wired medium.
- Such an OFDM modem 100 comprising an antenna 22 as a wireless port is shown in FIG. 10 .
- a modem 100 can be considered as a combination of a WLAN unit 10 and OFDM modem 30 respectively as described above in relation to FIGS. 1 and 3 .
- Modem 100 is shown to include the full WLAN unit 10 functions, and as such may function as WLAN unit 10 .
- the RF signal is coupled in between the RF-IF converter 16 and TX/RX Switch 19 by a sharing device 101 .
- the RF signal is thus also coupled to the telephone wiring connector 36 via the Up/Down Converter 31 and the HPF 32 , similar to the description above relating to OFDM modem 30 .
- a telephone set may be coupled via connector 35 and LPF 34 .
- the sharing device 101 is a three ports device and functions to share the three RF signals, such that an RF signal received in any one of the ports is replicated and shared by the other two ports.
- One RF signal relates to the wireless radio communication via the antenna 22
- a second signal relates to the telephone wiring carried signal via connector 36
- the third RF signal is associated with the data port 33 .
- the OFDM modem 100 communicates via three ports: Wireless port via antenna 22 , wired data unit port via connector 33 and wired telephone wiring connector 36 .
- a data packet (such as Ethernet packet) received from the data unit connected via port 33 will be converted to an OFDM RF signal at the RF-IF Converter 16 port, and then fed via sharing device 101 to both the telephone wiring after being down converted to a baseband signal by the Up/Down Converter 31 and through HPF 32 (as described above for modem 30 ), and in parallel (via sharing device 101 ) to the antenna 22 to be transmitted over the air.
- an OFDM RF signal received in the antenna 22 is fed via the sharing device 101 to both the telephone wiring port 36 in analog baseband form and data unit port 33 as digital packets.
- Baseband signals received via the telephone wiring port will be converted to RF and then transmitted to the air by the antenna 22 in parallel to being down frequency converted and encoded into a packet in digital form in port 33 .
- an RF signal may be received from both the antenna 22 and the telephone wiring (via port 36 ). Since wireless systems are able to handle the through-air multi-path phenomenon, the signal received via the telephone wiring channel should be appreciated as another signal path, hence being handled by the baseband processor 18 .
- the three ports modem 100 is shown to share the three RF signals by sharing device 101 .
- the sharing function is performed in the baseband (or IF) frequency spectrum.
- Such a modem 105 is shown in FIG. 10 a . Similar to modem 100 , three ports are supported, two wired and one wireless. However, in contrast to modem 100 , the sharing device 106 shares three baseband signals: an antenna 22 coupled signal, via the RF-IF Converter 16 , telephone wiring signal via line interface 76 and data unit related signal via the baseband processor 18 .
- One advantage of such configuration is the use of a single Up/Down Converter 16 , rather than the two converters ( 16 and 31 ) used in modem 100 configuration.
- wireless-port equipped modems 100 and 105 may be equally enclosed within a telephone outlet or snap-on module.
- a snap-on module 110 attached to a telephone outlet 91 is shown in FIG. 11 .
- Module 110 is similar to module 90 shown in FIG. 9 , but in contrast attaches to the outlet using screws 111 a and 111 b rather than by snap-fit connection. It should be noted that other mechanical attachment means could be equally employed.
- an antenna 22 is shown, serving as additional over-the-air wireless port.
- a network 120 utilizing a wireless port equipped OFDM modem 100 is shown in FIG. 12 .
- OFDM modem 105 may be equally employed.
- the network 120 is based on network 75 shown in FIG. 6 b , wherein OFDM modem 100 a substitutes OFDM modem 30 b , hence introducing a wireless port 22 a to the network.
- Computer 66 a and telephone unit 65 a connect to the OFDM modem 100 a in a similar manner as before.
- the additional port 22 a allows for a laptop computer 66 c to be connected to the wireless bridge 121 a comprising an antenna 22 b .
- the wireless client functionality 121 a may be built in the computer 66 c .
- a wireless link according to standard IEEE802.11g is established between the bridge 121 a and the modem 100 a , hence enabling the computer 66 c to network with the other data units connected to the telephone wiring 62 , as well as to computer 66 a.
- While a single modem 100 or 105 is part of network 120 , it should be appreciated that multiple such modems may be used, each covering a different area in the premises, hence enlarging the actual wireless coverage. Furthermore, such network 120 offers the user the flexibility of adding data units either through wiring (by connecting to the data ports of the OFDM modems) or wirelessly (via the wireless port).
- a wireless adaptor 130 supporting only wireless port is shown in FIG. 13 .
- the data unit port 33 associated functions described for modem 100 in FIG. 10 (such as baseband processor 18 , MAC layer processor 13 and PHY 12 ) are omitted.
- the receiving path comprises the antenna 22 , RF Filter 21 and TX/RX Switch 19 .
- the received RF signal is then frequency down shifted by Up/Down converter 31 , and fed to the telephone wiring via connector 36 and HPF 32 .
- any OFDM signal carried by the telephone wiring is received and up converted to RF, and then feeds the antenna 22 .
- a telephone set may be connected to the telephone wiring via connector 35 and LPF 34 .
- FIG. 14 A network 140 employing the wireless adaptor 130 is shown in FIG. 14 .
- Wireless adaptors 130 a and 13 b are respectively connected to outlets 63 d and 63 b , and respectively employ antennas 22 a and 22 c .
- Computer 66 c is wirelessly coupled to the telephone wiring 62 via the wireless bridge 121 a and antenna 22 b , communicating with adaptor 130 a via its antenna 22 a .
- computer 66 d is wirelessly coupled to the telephone wiring 62 via the wireless bridge 121 b and antenna 22 d , communicating with adaptor 130 b via its antenna 22 c .
- the computers 66 c and 66 d communicate over the telephone wiring 62 via the respective adaptors 130 .
- the telephone wiring 62 and the adaptors 130 serve as a repeater, thus allowing communication between units, which cannot directly wirelessly communicate.
- the lower frequency band of the wiring is used simultaneously to carry telephone signals between the PSTN 61 and the telephones 65 a , 65 b , 65 c and 65 d .
- Telephone sets 65 a and 65 c respectively connect via adaptors 130 a and 130 b .
- Telephone sets 65 b and 65 d connect to the wiring 62 via LPFs 34 a and 34 b , respectively.
- Antennas 22 b and 22 d may be sufficiently close to enable direct wireless communication between bridges 121 a and 121 b .
- a telephone wiring path is added.
- bridge 22 d may receive signals transmitted by bridge 121 a via the air.
- the transmitted signal is received by adaptor 130 a (via antenna 22 a ), and converted to baseband and carried over the telephone wiring segments 62 d and 62 c .
- the signal is then extracted by adaptor 130 b , up frequency shifted and transmitted through the air via antenna 22 c to the bridge 121 b , hence forming an additional path. Since most wireless technologies and IEEE802.11g in particular are well equipped to handle multi-path, this phenomenon is not expected to degrade the communication performance.
- wireless-port equipped modems and adaptors may equally be used in point to point topology, ‘star’ topology or any combination thereof.
- other utility wiring (not limited to telephone oriented wiring) is used, carrying a service signal.
- powerlines may be used to carry both the AC power signal and the OFDM signal according to one or more embodiments according to the present invention.
- the HPF 32 should be substituted with HPF filtering out the low frequency band (i.e. 60 Hz in North America and 50 Hz in Europe) carrying the AC signal and its associated noises.
- the telephone connector 35 should be substituted with a two or three prongs power jack suitable for connecting powered appliances, and the telephone-oriented LPF 34 should be substituted by a LPF passing the 50/60 Hz AC signal.
- the powerline OFDM modem may be equally enclosed within an AC power outlet and snap-on module respectively, with the warranted modifications.
- the OFDM baseband signal is carried over CATV cabling, carrying a CATV service signal.
- the baseband signal may be employed over a band not used for carrying CATV signals (e.g. over 750 MHz in some implementations).
- the Up/Down Converter 31 used should shift the band to the allocated bandwidth, for example by tuning the local oscillator 54 frequency to the required value.
- the HPF 32 should be substituted with a BPF passing the allocated 24 MHz, and the LPF 34 should be substituted with a BSP (Band Stop Filter) blocking the OFDM signal and passing the CATV channels, to be coupled to via RF connector (BNC or F-Type) substituting for the telephone connector 35 .
- BSP Band Stop Filter
- Connector 151 is connectable to appropriate utility wiring, and represents a dedicated specific applicable connector, such as telephone connector 36 (e.g. RJ-11 plug) in the case where the utility wiring is telephone wiring, or an RF connector in the case of CATV cabling and AC power plug in the case of powerlines.
- a service connector 152 represents the appropriate service signal connector such as telephone connector 35 , RF connector and AC power jack when used with telephone, CATV and AC power wiring, respectively.
- Service/Data Splitter/Combiner 153 functions to pass the service signal to the service connector 152 , to couple the OFDM baseband signal to the Up/Down Converter block 37 and to avoid interference between both signals.
- the functionality of the Splitter/Combiner 153 is provided by the LPF 34 and HPF 32 .
- LPF and HPF are used in powerline applications, for coupling/stopping the AC power signal.
- BPF Band Pass Filter
- BSP Band Stop Filter
- the OFDM modems include active components (such as Up/Down converter 31 ), and as such need to be powered.
- active components such as Up/Down converter 31
- Three non-limiting powering schemes are described hereinafter including local feeding, power over wiring and via the interface module.
- the powering schemes apply to the modem/adaptor being a stand-alone enclosure, housed within an outlet, enclosed within a snap-on outlet module or as part of a data unit.
- the module is connected to an external power source for feeding its active components.
- a common small AC/DC converter may be connected to the modem/adaptor via a dedicated power connection.
- a power adaptor may be used in the modem/adaptor, for adapting the external power to the internal needs.
- Such an adaptor may include voltage conversion (such as DC to DC converter) in order to adapt to specific voltages required, protection circuits (such as fuse or current limiting), regulation and noise filtration, as well as other functionality as known in the art.
- the OFDM modem (or the wireless adaptor) is fed by power carried over the wiring to which the module is connected.
- the power may be carried over separated conductors.
- the same wiring connector (such as 36 or 151 ) may be used to connect to the power carrying conductors using separated pins.
- an additional power dedicated connector may be used.
- the power is carried simultaneously over the wiring carrying the data network signals and/or the basic service signal.
- the implementation of such a mechanism is trivial when the basic service is AC power.
- the power is extracted from the AC power signal carried, commonly via AC/DC converter and LPF filter.
- PoE Power over Ethernet
- a.k.a. Power over LAN a.k.a. Power over LAN
- IEEE802.3af a recent technique known as Power over Ethernet (PoE) (a.k.a. Power over LAN) and standardized under IEEE802.3af, also explained in U.S. Pat. No. 6,473,609 to Lehr et al. titled: “Structure Cabling System”
- Such technology may be used to provide power to any of the modems/adaptors described above, in the case where appropriate cabling (such as CAT. 5) is used as the wired medium.
- cabling such as CAT. 5
- a filter should be used.
- two transformers are required as known in the art.
- Wireless system in general, and WLAN systems in particular are associated with mobile and handheld devices such as PDA (Personal Digital Assistant), cellular phone, remote-controller and laptop computers.
- PDA Personal Digital Assistant
- the power consumption of the wireless components is critical. As such, a lot of resources are allocated to make the wireless components consume very low power, and the power consumption of any wireless components is considered as one of its main features.
- This approach is described for example in Texas Instruments White Paper entitled “Low Power Advantage of 802.11a/g vs. 802.11b” which is incorporated herein by reference.
- the low power feature of the wireless components makes them well suitable to be used in any power over wiring scheme, and also in any non-local feeding scenarios.
- An additional advantage of carrying power over the same wires carrying the OFDM signal relates to the superior characteristics of the OFDM signal.
- Known single carrier modulations use the whole spectrum for the whole data rates (single ‘bin’ approach), and as such are greatly susceptible to both white noise and single frequency noise.
- OFDM uses multiple ‘bins’, each carrying part of the data, and hence is less impaired by either white or narrowband noise.
- Power supplies are known to be noisy, and in particular at specific frequencies, such as harmonies of the PWM frequency (in the case of PWM based supply).
- the wires connecting the wired medium to the power supply and to the loads also serve as antennas and receive noise from the environment. Since the OFDM is much more robust, the effects described are less severe, allowing better performance, and obviating the need for complex and expensive filters.
- the networks described above are used to serve wireless clients (STAs) which are battery operated and thus are operative even in the case of power outage, carrying power over the wiring allows for continuing network operation in such a case.
- the power is typically sourced from a central back-up power source (e.g. UPS—Uninterruptible Power Supply), and allows continuous operation of the network even in the case of power outage via the wiring medium.
- UPS Uninterruptible Power Supply
- OFDM modem 160 capable of being power fed via the telephone wiring is shown in FIG. 16 .
- OFDM modem 160 includes modem 30 (shown functionally in FIG. 3 ) and added power extraction and feeding functionalities.
- OFDM modem 160 connects to the telephone wiring via telephone connector 36 , in a way similar to modem 30 .
- a BPF 162 optimized to pass only the 50 KHz power signal, extracts the power signal and feeds AC/DC Power Supply 161 , which converts to various DC levels usually required by the OFDM modem 30 , such as 5 and 3.3 VDC.
- the non-power related signals (telephony, ADSL and OFDM baseband) are passed through BSF (Band Stop Filter) 163 (which may implement 50 KHz notch filter, for example) and to the wiring port of OFDM modem 30 .
- BSF Band Stop Filter
- the data and telephone ports of the OFDM modem 30 shown as 33 and 35 in FIG. 3 are represented as modem 160 data port 164 and telephone port 165 , respectively.
- OFDM modem 160 implements all OFDM modem 30 functions, added to the capability of being powered by a power signal carried over the telephone wiring.
- the BPF 162 and BSF 163 constitute the power/signal splitter/combiner 166 .
- this function block 166 should be accordingly modified to split/combine the power and other signals carried over the wiring.
- a network 170 employing AC power over telephone wiring is shown in FIG. 17 , based on network 75 described above with reference to FIG. 6 b .
- OFDM modems 30 b and 60 a of network 75 are respectively substituted with telephone wiring AC powered modems 160 b and 160 a , including the same functionalities added to the capability of being powered via the telephone lines.
- the 50 KHz power signal is fed into the wiring via the 50 KHz AC power supply 171 , coupled to the telephone wiring 62 via connector 64 c of outlet 63 c , through a BPF 162 to avoid interference with the other signals carried over the same wiring 62 .
- OFDM modem 30 a is used connected to outlet 63 a , hence using local powering.
- USB interface may feed the module.
- the data port 33 is an Ethernet port implementing PoE technology as described above.
- OFDM modem used herein is to be considered as an example only, and not as limited to solely using OFDM based signal.
- WAN Wide Area Network
- other wireless technologies may be equally used, such as cellular technologies (e.g. GSM, GPRS, 2.5G, 3G, UMTS, DCS, PCS and CDMA) and Local Loop oriented technologies (WLL—Wireless Local Loop) such as WiMax, WCDMA and other Fixed Wireless technologies, including microwave based.
- satellite based technologies and components may be equally used. While the technologies mentioned above are all standards-based, proprietary and non-standards technologies may be equally used according to present invention. Furthermore, the invention may equally apply to using technologies and components used in non-radio based through-the-air wireless systems such light (e.g. infrared) or audio (e.g. ultrasonic) based communication systems.
- the invention has been described with regard to embodiments using a complete wireless solution based on existing components, including wireless MAC 13 b , baseband processor 18 and converter 16 , it will be appreciated that the invention equally applies to other embodiments wherein one or more of theses components are used.
- the MAC 13 b may be substituted with a wired-dedicated MAC, still employing all physical layer components.
- other physical layer components may be used, still using the powerful wireless MAC 13 b .
- wireless signal either as baseband, IF or RF form
- additional processing may also apply to the standard wireless signals and components, such as amplitude/level handling such as amplification and attenuation and frequency handling such as filtering. Such processing may be warranted in order to better adapt to the wired medium, improve reliability or reduce costs.
- the invention has been described with regard to wireless signals and systems carrying digital data, it will be appreciated that the invention equally applies to other embodiments wherein the wireless signals (and system) are used to carry analog signals.
- One non-limiting example involves cordless telephony.
- Cordless telephones are known to carry telephone (and control) signals over the air using ISM bands.
- Applying the invention allows for carrying the signals over any wired medium in general and over a utility wiring in particular.
- the above advantages are apparent, such as enlarging the coverage.
- such configuration may allow carrying multiple telephone signals over a single telephone pair.
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Priority Applications (4)
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US12/129,278 US8325759B2 (en) | 2004-05-06 | 2008-05-29 | System and method for carrying a wireless based signal over wiring |
US12/944,964 US8325693B2 (en) | 2004-05-06 | 2010-11-12 | System and method for carrying a wireless based signal over wiring |
US12/954,110 US9026036B2 (en) | 2005-02-28 | 2010-11-24 | Method and system for integrating an RF module into a digital network access point |
US13/664,013 US20130051404A1 (en) | 2004-05-06 | 2012-10-30 | System and method for carrying a wireless based signal over wiring |
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IL161869 | 2004-05-06 | ||
IL16186904A IL161869A (en) | 2004-05-06 | 2004-05-06 | A system and method for carrying a signal originating is wired using wires |
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US12/129,278 Continuation US8325759B2 (en) | 2004-05-06 | 2008-05-29 | System and method for carrying a wireless based signal over wiring |
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US11/066,442 Abandoned US20050249245A1 (en) | 2004-05-06 | 2005-02-28 | System and method for carrying a wireless based signal over wiring |
US12/129,278 Expired - Fee Related US8325759B2 (en) | 2004-05-06 | 2008-05-29 | System and method for carrying a wireless based signal over wiring |
US12/944,964 Expired - Fee Related US8325693B2 (en) | 2004-05-06 | 2010-11-12 | System and method for carrying a wireless based signal over wiring |
US13/664,013 Abandoned US20130051404A1 (en) | 2004-05-06 | 2012-10-30 | System and method for carrying a wireless based signal over wiring |
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US12/944,964 Expired - Fee Related US8325693B2 (en) | 2004-05-06 | 2010-11-12 | System and method for carrying a wireless based signal over wiring |
US13/664,013 Abandoned US20130051404A1 (en) | 2004-05-06 | 2012-10-30 | System and method for carrying a wireless based signal over wiring |
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KR (3) | KR101361324B1 (fr) |
CN (1) | CN1951097B (fr) |
CA (1) | CA2565733C (fr) |
DE (1) | DE602005013373D1 (fr) |
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Also Published As
Publication number | Publication date |
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KR101413314B1 (ko) | 2014-07-03 |
JP4633790B2 (ja) | 2011-02-16 |
JP2007536870A (ja) | 2007-12-13 |
EP1749399B1 (fr) | 2009-03-18 |
CN102158333A (zh) | 2011-08-17 |
IL161869A0 (en) | 2005-11-20 |
EP1749399A1 (fr) | 2007-02-07 |
IL161869A (en) | 2014-05-28 |
DE602005013373D1 (de) | 2009-04-30 |
US20080280569A1 (en) | 2008-11-13 |
EP2061224A1 (fr) | 2009-05-20 |
WO2005109845A1 (fr) | 2005-11-17 |
KR20130004396A (ko) | 2013-01-09 |
KR101369019B1 (ko) | 2014-02-28 |
EP2323360A1 (fr) | 2011-05-18 |
US8325759B2 (en) | 2012-12-04 |
US8325693B2 (en) | 2012-12-04 |
US20130051404A1 (en) | 2013-02-28 |
EP2326073A1 (fr) | 2011-05-25 |
KR101361324B1 (ko) | 2014-02-11 |
KR20120092159A (ko) | 2012-08-20 |
CA2565733A1 (fr) | 2005-11-17 |
US20110281530A1 (en) | 2011-11-17 |
KR20070011559A (ko) | 2007-01-24 |
CN1951097A (zh) | 2007-04-18 |
CN1951097B (zh) | 2015-01-07 |
CA2565733C (fr) | 2014-03-25 |
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