CN112986969A - One-key startup and shutdown system of phased array weather radar - Google Patents

Abstract

The invention discloses a one-key startup and shutdown system of a phased array weather radar, wherein the phased array weather radar is divided into an outdoor part and an indoor part, the outdoor part comprises an antenna pedestal, an antenna array surface, a light transmitter and digital beam forming, the indoor part comprises a signal processing server, a servo server, health management, data processing, a secondary product generation server, a cable, a cabinet and a network, and a one-key startup module and a one-key shutdown module are arranged in the data processing; an extension power-on feedback module and an extension power-off feedback module are arranged in the health management. The invention is started by one key, prevents manual misoperation, automatically records logs in each step, is convenient for troubleshooting, and has simple system architecture and low cost.

Description

One-key startup and shutdown system of phased array weather radar

Technical Field

The invention relates to a one-key startup and shutdown technology, in particular to a one-key startup and shutdown system of a phased array weather radar.

Background

The phased array weather radar is composed of a digital TR component, a front surface power supply, a DBF and other active devices, and the system has strict requirements on the starting/shutdown sequence of each extension. The manual one-by-one startup/shutdown is easy to cause misoperation, and unnecessary damage is generated to the radar system.

The one-key startup and shutdown system can automatically complete the startup and shutdown of the radar, and prevent manual misoperation.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the one-key startup and shutdown system of the phased array weather radar, which is started by one key, prevents manual misoperation, automatically records logs in each step, is convenient for troubleshooting, and has simple system structure and low cost.

The purpose of the invention is realized by the following technical scheme.

A phased array weather radar one-key power on and off system comprises an outdoor part and an indoor part, wherein the outdoor part comprises an antenna pedestal, an antenna array surface, a light transmitter and digital beam forming, the indoor part comprises a signal processing, a servo, health management, a data processing, a secondary product generating server, a cable, a cabinet and a network, and a one-key power on module and a one-key power off module are arranged in the data processing; an extension power-on feedback module and an extension power-off feedback module are arranged in the health management.

The database of the health management is provided with a one-key startup configuration table, a one-key shutdown configuration table and a one-key startup/shutdown log.

The antenna array surface comprises N waveguide slot antennas, a comprehensive network, array surface monitoring, an N-channel digital TR component, a monitoring component and an array surface power supply.

The one-key startup method comprises the following steps:

a) preparation work: the computer for starting part of indoor equipment comprises a signal processing server, a health management server, a data processing server and a secondary product generation server;

b) opening radar control software on a data processing computer, and clicking 'one-key starting up';

c) the radar control software starts a one-key starting module, reads a one-key starting configuration table in a database, and performs a one-key starting process according to the requirement of the one-key starting configuration table;

d) the method comprises the steps that firstly, a 'array surface receiving and power-up' instruction is sent to a 'power distribution' extension, feedback of a 'extension power-on feedback module' of health management is received after 2 seconds, a 'array surface cooling and power-up' step is carried out after success, if failure occurs, the step is repeated, and if failure occurs for three times, one-key power-on is stopped, a prompt is given, and the prompt is recorded in a 'one-key power-on/power-off log';

e) and finishing all steps in the one-key startup configuration table in sequence, and ending the one-key startup process.

The one-key power-off comprises the following steps:

a) preparation work: all startup steps are completed;

b) opening radar control software on a data processing computer, and clicking 'one-key power-off';

c) the radar control software starts a one-key power-off module, reads a one-key power-off configuration table in a database, and performs a one-key power-off process according to the requirement of the one-key power-off configuration table;

d) the method comprises the steps that firstly, a servo enabling closing instruction is sent to a servo extension set, the feedback of an extension set power-off feedback module for health management is received after 2 seconds, the servo power-off is carried out after success, if failure occurs, the step is repeated, if failure occurs for three times, one-key power-off is stopped, a prompt is given, and the prompt is recorded in a one-key power-on/power-off log;

e) and finishing all steps of the one-key power-off configuration table in sequence, and finishing the one-key power-off process.

The one-key startup configuration table is as follows:

step (ii) of	Name of item	Belonging to extension	Feedback detection time/second
				1	Array plane receive power-up	Power distribution	2
2	Front side cooling energization	Power distribution	2
				3	DBF power-up	Power distribution	2
4	Array plane transmit power-up	Power distribution	2
				5	Array fan power-up	Array surface power supply	5
6	Array plane receive power-up	Array surface power supply	5
				7	Array plane transmit power-up	Array surface power supply	5
8	Servo power-up	Power distribution	2
				9	Servo enable on	Servo system	5

。

The one-key power-off configuration table is as follows:

compared with the prior art, the invention has the advantages that: the invention discloses a one-key startup and shutdown system designed for a phased array weather radar, and aims to achieve the purposes of one-key startup, prevention of manual misoperation and the like.

The invention proposes a feasible design idea and is implemented in detail. The phased array weather radar adopting the one-key startup and shutdown system is installed and put into formal use, and various indexes meet the design requirements through detection of relevant departments, so that the use effect is good.

The method is suitable for system design of the phased array weather radar.

Drawings

FIG. 1 is a block diagram of a phased array weather radar system.

FIG. 2 is a one-touch power-on flow chart.

FIG. 3 is a flow chart of a one-touch power-off process.

Detailed Description

The invention is described in detail below with reference to the drawings and specific examples.

The hardware of a certain C-band phased array weather radar (see figure 1) system is structurally divided into an outdoor part and an indoor part, wherein the outdoor part mainly comprises an antenna pedestal, an antenna array surface (comprising 296 waveguide slot antennas, a comprehensive network, array surface monitoring, 296 channel digital TR components, 1 monitoring component, 10 array surface power supplies and the like), optical transmission and Digital Beam Forming (DBF), and the indoor part comprises signal processing, servo (antenna control), health management (comprising a database), data processing (comprising radar information display and meteorological information processing), a secondary product generation server, and auxiliary equipment such as cables, cabinets, networks and the like.

The one-key startup and shutdown system is integrated with the whole radar system, and the purposes of simple design and low cost are achieved. The one-key startup and shutdown system is fully automatically controlled by data processing software without intervention of operators, and the work flow chart is shown in figure 2.

The one-key startup and shutdown system mainly comprises the following components:

a) a one-key startup module and a one-key shutdown module are designed in data processing;

b) an extension power on/off feedback module and an extension power on/off feedback module are designed in health management.

c) Designing a one-key startup configuration table, a one-key shutdown configuration table and a one-key startup/shutdown log in a health management database;

one-key startup workflow (fig. 2)

a) Preparation work: the computer for starting part of indoor equipment comprises a signal processing server, a health management server, a data processing server and a secondary product generation server;

b) opening radar control software on a data processing computer, and clicking 'one-key starting up';

c) the radar control software starts a one-key starting module, reads a one-key starting configuration table in a database, and performs a one-key starting process according to the requirement of the one-key starting configuration table;

d) the method comprises the steps that firstly, a 'array surface receiving and power-up' instruction is sent to a 'power distribution' extension, feedback of a 'extension power-on feedback module' of health management is received after 2 seconds, a 'array surface cooling and power-up' step is carried out after success, if failure occurs, the step is repeated, and if failure occurs for three times, one-key power-on is stopped, a prompt is given, and the prompt is recorded in a 'one-key power-on/power-off log';

e) and finishing all steps in the one-key startup configuration table in sequence, and ending the one-key startup process.

One-key shutdown work flow (fig. 3)

a) Preparation work: all startup steps are completed;

b) opening radar control software on a data processing computer, and clicking 'one-key power-off';

c) the radar control software starts a one-key power-off module, reads a one-key power-off configuration table in a database, and performs a one-key power-off process according to the requirement of the one-key power-off configuration table;

d) the method comprises the steps that firstly, a servo enabling closing instruction is sent to a servo extension set, the feedback of an extension set power-off feedback module for health management is received after 2 seconds, the servo power-off is carried out after success, if failure occurs, the step is repeated, if failure occurs for three times, one-key power-off is stopped, a prompt is given, and the prompt is recorded in a one-key power-on/power-off log;

e) and finishing all steps of the one-key power-off configuration table in sequence, and finishing the one-key power-off process.

The one-key startup configuration table is as follows:

step (ii) of	Name of item	Belonging to extension	Feedback detection time/second
				1	Array plane receive power-up	Power distribution	2
2	Front side cooling energization	Power distribution	2
				3	DBF power-up	Power distribution	2
4	Array plane transmit power-up	Power distribution	2
				5	Array fan power-up	Array surface power supply	5
6	Array plane receive power-up	Array surface power supply	5
				7	Array plane transmit power-up	Array surface power supply	5
8	Servo power-up	Power distribution	2
				9	Servo enable on	Servo system	5

。

The one-key power-off configuration table is as follows:

Claims (7)

1. a phased array weather radar one-key power on and off system, the phased array weather radar is divided into the outdoor part and indoor part, the outdoor part includes the antenna pedestal, antenna array, light transmission, digital beam forming, the indoor part includes signal processing, servo, health management, data processing, secondary product generation server and cable, cabinet and network, characterized by that there are one-key power on module and one-key power off module in the said data processing; an extension power-on feedback module and an extension power-off feedback module are arranged in the health management.

2. The one-touch power on/off system of the phased array weather radar as claimed in claim 1, wherein the database of the health management is provided with a one-touch power on configuration table, a one-touch power off configuration table and a one-touch power on/off log.

3. The one-touch power on/off system of the phased array weather radar as claimed in claim 2, wherein the antenna array comprises N waveguide slot antennas, a synthesis network, array monitoring, N-channel digital TR components, monitoring components, and an array power supply.

4. The one-touch power on/off system of the phased array weather radar as claimed in any one of claims 1 to 3, wherein the one-touch power on comprises the following steps:

a) preparation work: the computer for starting part of indoor equipment comprises a signal processing server, a health management server, a data processing server and a secondary product generation server;

b) opening radar control software on a data processing computer, and clicking 'one-key starting up';

c) the radar control software starts a one-key starting module, reads a one-key starting configuration table in a database, and performs a one-key starting process according to the requirement of the one-key starting configuration table;

d) the method comprises the steps that firstly, a 'array surface receiving and power-up' instruction is sent to a 'power distribution' extension, feedback of a 'extension power-on feedback module' of health management is received after 2 seconds, a 'array surface cooling and power-up' step is carried out after success, if failure occurs, the step is repeated, and if failure occurs for three times, one-key power-on is stopped, a prompt is given, and the prompt is recorded in a 'one-key power-on/power-off log';

e) and finishing all steps in the one-key startup configuration table in sequence, and ending the one-key startup process.

5. The system of claim 4, wherein the one-touch power-off comprises:

a) preparation work: all startup steps are completed;

b) opening radar control software on a data processing computer, and clicking 'one-key power-off';

c) the radar control software starts a one-key power-off module, reads a one-key power-off configuration table in a database, and performs a one-key power-off process according to the requirement of the one-key power-off configuration table;

d) the method comprises the steps that firstly, a servo enabling closing instruction is sent to a servo extension set, the feedback of an extension set power-off feedback module for health management is received after 2 seconds, the servo power-off is carried out after success, if failure occurs, the step is repeated, if failure occurs for three times, one-key power-off is stopped, a prompt is given, and the prompt is recorded in a one-key power-on/power-off log;

e) and finishing all steps of the one-key power-off configuration table in sequence, and finishing the one-key power-off process.

6. The system of claim 4, wherein the one-touch power-on configuration table comprises:

step (ii) of Name of item Belonging to extension Feedback detection time/second 1 Array plane receive power-up Power distribution 2 2 Front side cooling energization Power distribution 2 3 DBF power-up Power distribution 2 4 Array plane transmit power-up Power distribution 2 5 Array fan power-up Array surface power supply 5 6 Array plane receive power-up Array surface power supply 5 7 Array plane transmit power-up Array surface power supply 5 8 Servo power-up Power distribution 2 9 Servo enablingIs opened Servo system 5

。

7. The system of claim 5, wherein the one-touch shutdown configuration table comprises:

step (ii) of Name of item Belonging to extension Feedback detection time/second 1 Servo enable shutdown Servo system 5 2 Servo power-off Power distribution 2 3 Array surface emitting power-off Array surface power supply 5 4 Array surface receiving power-off Array surface power supply 5 5 Turn-off of array fan Array surface power supply 5 6 Array surface emitting power-off Power distribution 2 7 DBF power-off Power distribution 2 8 Array surface cooling power-off Power distribution 2 9 Array surface receiving power-off Power distribution 2

。

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