CN106330228A - Smart environment-friendly energy saving method and device for high-speed transceiver - Google Patents

Abstract

The invention discloses a smart environment-friendly energy saving method and device for a high-speed transceiver. A novel environment-friendly energy saving receiving and transmitting device comprises a signal detection and receiving device (1) and a signal proportional distribution device (2), wherein an output signal of the signal detection and receiving device is partitioned into two paths through the proportional distribution device; a first path of signal (14) is connected to a signal comparing and processing device (4); meanwhile, a judgement reference device (3) outputs a judgement reference signal to the signal comparing and processing device (4); a power supply device (6) is used for supplying power to main receiving and transmitting units of equipment after passing through a power supply switch (7); initial power-on of the high-speed transceiver is in a working state; and the signal comparing and processing device (4) starts to compare a signal state after working for a while to decide whether the power supply switch (7) is switched on or off in a next step. Through adoption of the method and the device, the efficiency of the receiving and transmitting device can be increased; idle power consumption and thermal consumption of the receiving and transmitting device are lowered; the effective energy consumption of the high-speed transceiver is lowered further; and comprehensive operation cost of an end user is lowered.

Description

High-speed transceiver intelligent green power-economizing method and device

Technical field

The present invention relates to the fields such as optical communication technique, wireless communication technology or consumer electronics, specifically, be high-speed transceiver intelligent green power-economizing method and device.

Background technology

The transceiving integrated module of accepted standard in existing high-capacity optical fiber transmission network, wireless receiving and dispatching integrated module in cordless communication network, and household consumer electronics field transceiving integrated inside modules structure includes receiving and discharger, it is transceiving integrated module frame chart, Fig. 1.Described transceiver module includes that signal receives detection device (1), electric supply installation (6), power switch (7), signal amplifying apparatus (8), signal demodulating equipment (9), signal handling equipment (10), sender unit (11), signal driving means (12), modulating apparatus (13) and power switch button (20).

The transceiving integrated module of Large Copacity is all to be constantly in duty after powering in a device, regardless of whether detect signal, its main power consuming units includes signal amplifying apparatus (8), signal demodulating equipment (9), signal processing apparatus (10), sender unit (11), signal driving means (12) and modulating apparatus (13) are in the state that normally works on power.So cause whole equipment power dissipation to be greatly increased, be in fallback, the invalid states of dissipation of heat.Data center's magnanimity uses optical transceiver, and the invalid transceiver that dallies causes the electricity charge to increase, and thermal losses causes refrigeration demand to increase, and the integrated cost of long-term operation increases.

Summary of the invention

It is an object of the invention to invent the intelligent green power-economizing method of transceiving integrated module and device, reduce the idle power consumption of receiver-transmitter integrated module, reduce module thermal losses, reduce integrated maintenance integrated cost further to redesign on standard receiver-transmitter integrated module Energy Saving Control, a kind of can be according to detectable signal with or without the device deciding whether dormancy transceiver, effectively reduce the comprehensive power consumption of transceiver, lower the thermal losses of transmitting and receiving module, effectively reduce the integrated cost of the modulate emission device of module, and then improve the usefulness of transceiving integrated module.

The present invention is achieved through the following technical solutions: the novel one R-T unit with green energy conservation, device (1) is received including an acquisition of signal, one signal proportion distributor (2), described acquisition of signal receives the output signal of device and is divided into through described pro rate device that two-way, first via signal (14) are connected to signal comparison process device (4), to adjudicate standard apparatus (3) output judgement reference signal interior to described signal comparison process device (4) simultaneously.Electric supply installation (6) powers to respectively after power switch (7) the main Transmit-Receive Unit of equipment, and described Transmit-Receive Unit includes signal amplifying apparatus (8), signal demodulating equipment (9), signal handling equipment (10), sender unit (11), signal driving means (12), modulating apparatus (13).High-speed transceiver initial power-on is in running order, work one section time described signal comparison process device start comparison signal state, determine that next step power switch being is to close also to be off.

To better implement the present invention, further, the usefulness of receiving and transmitting unit can be improved, by idle power consumption and the heat consumption of transceiver device, use following method especially: when having signal to input, described acquisition of signal receives device and detects signal, send to signal through signal comparison process device and trigger conversion equipment (5), conversion equipment Guan Bi power switch (7) is triggered by described signal, so that electric supply installation (6) powers to the main Transmit-Receive Unit of equipment, described Transmit-Receive Unit includes signal amplifying apparatus (8), signal demodulating equipment (9), signal handling equipment (10), sender unit (11), signal driving means (12), modulating apparatus (13).

To better implement the present invention, further, the usefulness of receiving and transmitting unit can be improved, reduce idle power consumption and the heat consumption of transceiver device, use following method especially: when not having signal to input, described acquisition of signal receives device cannot detect signal, signal comparison process device transmits another signal to triggering conversion equipment (5), disconnect power switch (7), so that electric supply installation (6) powers no longer to the main Transmit-Receive Unit of equipment, described transmitting-receiving formant includes signal amplifying apparatus (8), signal demodulating equipment (9), signal handling equipment (10), sender unit (11), signal driving means (12), modulating apparatus (13).

To better implement the present invention, further, the usefulness of receiving and transmitting unit can be improved, reduce idle power consumption and the heat consumption of transceiver device, use following method especially: judgement standard apparatus (3) can be adjusted according to varying environment, in order to judge that integration R-T unit should be at resting state or should be at duty, thus controlling described power switch (7) is that the main Transmit-Receive Unit of equipment is powered or power-off, reaches idle energy-saving effect.

To better implement the present invention, further, reduce idle power consumption and the heat consumption of transceiver device, improve transceiver device from dormancy to the working reaction time, using especially following method: when signal is by without turning sometimes, acquisition of signal receives device (1) and a signal proportion distributor (2) and described signal comparison process device (4) and power switch (7) the Tong Bu push-push operation of holding.

The present invention compared with prior art, has the following advantages and beneficial effect:

(1) present invention is to reduce idle power consumption and the heat consumption of transceiver device, improve transceiver device from dormancy to the working reaction time, and transceiver device creativeness is increased self adaptation green energy conservation device, equipment is powered or the intelligent control method of power-off by the presence or absence according to receiving signal, and then reduces the power consumption of high speed receiver-transmitter integrated module.

(2) present invention is to reduce idle power consumption and the heat consumption of transceiver device, and equipment is powered or the intelligent control method of power-off by the presence or absence according to receiving signal, outside manual intervention facilities's dormancy and duty.And then improve the conversion path of the work of high speed receiver-transmitter integrated module and dormancy.

(3) present invention can use the same road of transceiving integrated device to receive single sided arrangement, uses a passive signal proportion distributor, does not use extra to detect device, improves integrated level, reduces integrated cost.

(4) present invention uses adjustment judgement standard apparatus, and then the judgement benchmark of signal comparison process device can be adjusted according to varying environment, in order to judge that integration R-T unit should be at resting state or should be at duty, Optimization of Energy Saving effect.

(5) present invention is by adjusting judgement standard apparatus time decision, and then it is in running order in a period of time to make transceiver power on, then further according to signal reception detection device in order to judge that integration R-T unit should be at resting state or should be at duty, Optimization of Energy Saving effect.

Accompanying drawing explanation

Fig. 1 is high-speed transceiver theory structure schematic diagram

Fig. 2 is the theory structure schematic diagram of high-speed transceiver green energy conservation method and apparatus of the present invention.

Fig. 3 is concrete actual application example one integrated module of optical transceiver theory structure schematic diagram of the present invention.

Fig. 4 is the concrete actual application example three light amplifier module theory structure schematic diagram of the present invention.

Wherein, 1-acquisition of signal receives device, 2-signal proportion distributor, 3-adjudicates standard apparatus, 4-signal comparison process device, 5-signal triggers conversion equipment, 6-electric supply installation, 7-power switch, 8-signal amplifying apparatus, 9-signal demodulating equipment, 10-signal handling equipment, 11-signal launch installation, 12-signal drives equipment, 13-signal modulation equipment, 14-beam splitter the first output port, 15-beam splitter the second output port, 16-deserializer, 17-parallel-to-serial converter, 18-optical pumping source, 19-light emission port, 20-power switch button.

Detailed description of the invention

Below in conjunction with embodiment, the present invention is described in further detail, but the embodiment of invention is not limited to this.

Embodiment 1:

The present invention may be used for the light modulation discharger of optical module, for reducing the idle power consumption of optical fiber transceiver module, and the power supply control part of standard receiver-transmitter integrated module is redesigned, form the optical fiber transceiver module device that intelligent green is energy-conservation, the idle power consumption effectively reduced, and then improve optical fiber transceiver module task performance, Fig. 3 shows, the energy-conservation optical fiber transceiver module device of described intelligent green includes a photoreceiver, one No. 2 beam splitter, the output of described photoreceiver connects described No. 2 beam splitters, beam splitter the first output port 14 connects signal comparison process device, described signal comparison process device output link signal triggers conversion equipment, described signal triggers conversion equipment and controls power switch.Electric supply installation is powered to the main power consuming units of optical fiber transceiver module through power switch, and described power consumption power supply unit includes signal limiter amplifier, deserializer, signal processor, parallel-to-serial converter, signal driver and optical sender.

When design uses, the two-way export ratio of beam splitter being carried out by 1: 9, first via output port accounts for 10%；It is 90% that second road output port accounts for.

Embodiment 2:

The present embodiment is to optimize further on the basis of above-described embodiment, to better implement the present invention, further, can reduce the power consumption of optical fiber transceiver module, and beneficially green energy conservation design, Fig. 3 shows, use the following structure that arranges especially: described green energy conservation device includes adjudicating standard apparatus, described judgement standard apparatus connects signal and compares in judgment device, and the benchmark of described judgement standard apparatus is set to-28dB when short-distance transmission, reduces noise jamming；It is set to-38Db when ultra-long span transmission, improves judgement sensitivity.Described signal compares after judgment device arranges one set time of delay when powering on initial adjudicates, and then enables the other side's transmitting terminal power-up initializing.Can communicate at original state finishing service.The most whether dormancy receives signal deciding according to receiver.

Embodiment 3:

The present invention may be used for the green energy conservation device of image intensifer, for reducing the idle power consumption of image intensifer, and image intensifer is redesigned, one integrated green energy conservation image intensifer, effectively reduce the power consumption of image intensifer, and then improve light put usefulness, Fig. 4 shows, described integrated green energy conservation image intensifer, one No. 2 beam splitter, one photoreceiver, described No. 2 beam splitters receive external signal after light splitting, beam splitter the first output port 14 connects photoreceiver, entering signal comparison process device after light-to-current inversion, described signal comparison process device output link signal triggers conversion equipment, described signal triggers conversion equipment and controls power switch.Electric supply installation through power switch to the main power consuming units optical pumping source of image intensifer.

When amplifying when there being optical signal to need, then optical signal is through described beam splitter (2) light splitting in proportion, first port 14 is entering signal comparison process device after described photoreceiver (2) light-to-current inversion, trigger after device processes through signal processing and close power switch (7), and then make electric supply installation power to optical pumping source and light emission port, so that image intensifer normally works.

When amplifying when not having optical signal to need, optical signal is not i.e. had to enter in beam splitter and photoreceiver, the output of signal comparison process device disconnects instruction, power switch is disconnected after triggering device by signal processing, and then electric supply installation can not be powered to optical pumping source, the main power consuming units of the image intensifer being is in a dormant state.

The above, be only presently preferred embodiments of the present invention, and the present invention not does any pro forma restriction, every above example is made according to the technical spirit of the present invention any simple modification, equivalent variations, within belonging to protection scope of the present invention.

Claims (9)

1. the intelligent green power-economizing method of high speed signal transceiver and device, it is characterized in that: include at least one integrated receiver intelligent energy-saving device, described intelligent green energy saver includes that a signal receives detection device (1), signal proportion distributor (2), judgement standard apparatus (3), signal comparison process device (4), signal triggers conversion equipment (5), electric supply installation (6), power switch (7), signal amplifying apparatus (8), signal demodulating equipment (9), signal handling equipment (10), sender unit (11), signal driving means (12), modulating apparatus (13).

The intelligent power saving method and apparatus of signal transceiver the most according to claim 1, it is characterised in that: after described signal receives detection device (1) detection external signal, output is connected to signal proportion distributor (2).Described signal proportion distributor (2) exports two paths of signals by fixed proportion, first via signal (14) output connects described signal comparison process device (4), and the second road signal (15) output connects described signal amplifying apparatus (8).The output of described judgement standard apparatus (3) is connected to described signal comparison process device (4).

3. according to claim 1 and require the intelligent green power-economizing method described in 2 and device, it is characterized in that: the output of described signal comparison process device (4) is connected to described signal and triggers conversion equipment (5), it is characterised in that signal triggers conversion equipment (5) output and connects power switch (7).

4. according to claim 1, it is desirable to 2 and require the intelligent green power-economizing method described in 3 and device, it is characterised in that: the output of described signal proportion distributor (2) connects power switch (7) input.Power switch (7) output is to the main power consuming units of equipment, including signal amplifying apparatus (8), signal demodulating equipment (9), signal processing apparatus (10), sender unit (11), signal driving means (12) and modulating apparatus (13).

5. according to claim 1, require 2 and require the intelligent green power-economizing method described in 3 and device, it is characterized in that: described pro rate device (2) output two paths of signals, first via signal (14) output and the second road signal (15), first via signal (14) and the second road signal (15) energy proportion are 1: 9 or 2: 8.

6. according to claim 1, require 2 and require intelligent green power-economizing method and the device of 3, it is characterised in that: described signal reception detection device (1), pro rate device (2), judgement standard apparatus (3), signal comparison process device (4), signal trigger conversion equipment (5) and are constantly in the state of working on power.

7. according to claim 1, require 2, require 3 and require intelligent green power-economizing method and the device of 5, it is characterized in that: when described signal reception detection device (1) does not detects signal, power switch (7) is closed in original state, main power consuming units includes signal amplifying apparatus (8), signal demodulating equipment (9), signal processing apparatus (10), sender unit (11), signal driving means (12) and modulating apparatus (13) are in a dormant state.

8. according to claim 1, require 2, require 3 and require intelligent green power-economizing method and the device of 5, it is characterized in that: when described signal reception detection device (1) detects signal, power switch (7) is in conjunction closed state, main power consuming units includes signal amplifying apparatus (8), signal demodulating equipment (9), signal processing apparatus (10), sender unit (11), signal driving means (12) and modulating apparatus (13) are in the state that normally works on power.

9. according to claim 1, require 7 and require the intelligent green power-economizing method described in 8 and device, it is characterized in that: signal receives detection device (1) and power switch (7) is in synchronous regime, the Guan Bi of power switch (7) and off-state and the presence or absence one_to_one corresponding of external signal.