Method and apparatus for the continuous performance monitoring of a lead acid battery system
First Claim
1. An interface device for interfacing at least a portion of at least one string of batteries with a battery monitoring system, comprising:
- a) at least one probe means for respectively probing said portion of said at least one string, each of said at least one probe means including;
i) a controllable sensing means for sensing a plurality of parameters of the corresponding portion;
ii) a communication means for communicating data to and from the controllable sensing means, the data including control signals sent from the battery monitoring system to the controllable sensing means, and information signals relating to the parameters of the corresponding portion that are selected by the control signals; and
iii) a memory for memorizing an address assigned to the corresponding probe means upon reception of an initialization signal sent by the battery monitoring system via the communication means; and
b) a bus for serially interconnecting the communication means of each of said at least one probe means to the battery monitoring system in a daisy chain manner.
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Abstract
The present invention concerns a battery monitoring system for monitoring a plurality of batteries serially connected to form a string. The battery monitoring system includes a number of probes connected to at least a portion of the string, a daisy chain bus having a select channel for serially interconnecting the probes, the bus having other, parallel channels for data communication and power, and a system server. The probes each have a sensing module and a communication module. The sensing module senses characteristics of at least a portion of the string, such as voltage or current. The communication module receives the sensed characteristics and converts them into digital form for broadcast to the system server over the bus. The communication module of the probes have a memory for storing an address assigned to the corresponding probe upon reception of an initialization signal sent by the system server via the bus. In order to readdress all of the probes, a reset signal is transmitted to all of the probes. The probes clear the present address, and wait until they are selected through the select channel. Once the probe has been selected, it receives an address from the system server, stores the address in its memory, acknowledges this to the system controller, and sends a signal on the select channel to the next probe. Accordingly, initialization of a battery monitoring system is easily performed. The invention also lies in an interface device for use with a battery monitoring system.
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Citations
20 Claims
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1. An interface device for interfacing at least a portion of at least one string of batteries with a battery monitoring system, comprising:
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a) at least one probe means for respectively probing said portion of said at least one string, each of said at least one probe means including;
i) a controllable sensing means for sensing a plurality of parameters of the corresponding portion;
ii) a communication means for communicating data to and from the controllable sensing means, the data including control signals sent from the battery monitoring system to the controllable sensing means, and information signals relating to the parameters of the corresponding portion that are selected by the control signals; and
iii) a memory for memorizing an address assigned to the corresponding probe means upon reception of an initialization signal sent by the battery monitoring system via the communication means; and
b) a bus for serially interconnecting the communication means of each of said at least one probe means to the battery monitoring system in a daisy chain manner. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A battery monitoring system comprising:
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a) a plurality of batteries connected in series to form at least one string of batteries;
b) a plurality of probe means for respectively probing a portion of said at least one string, each of said probe means including;
i) a controllable sensing means for sensing a plurality of parameters of the corresponding portion of said at least one string;
ii) a communication means for communicating data to and from the controllable sensing means, the data including control signals and information signals relating to the parameters of the corresponding portion of said at least one string that are selected by the control signal;
iii) a memory for memorizing an address assigned to the corresponding probe means upon reception of an initialization signal;
iv) a bus for serially interconnecting the communication means of each of said at least one probe means in a daisy chain manner; and
c) a system server connected to said bus and configured to transmit an initialization signal, to receive respective addresses from each of said at least one probe means, to select one of said at least one probe, to transmit control signals to a selected one of said at least one probe and to receive information signals relating to the characteristics of the corresponding portion of said at least one string, memory means for storing said information signals, calculating means for calculating a plurality of values relating to said characteristics and alarm means for raising an alarm when one or more of said values is outside a predetermined range. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A battery monitoring system comprising:
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a) a plurality of batteries connected in series to form at least one string of batteries;
b) a plurality of probe means for respectively probing one at least a portion of said at least one string, each of said probe means including;
i) a controllable sensing means for sensing a plurality of parameters of the corresponding portion;
ii) a communication means for communicating data to and from the controllable sensing means, the data including control signals and information signals relating to the parameters of the corresponding portion that are selected by the control signal;
iii) a bus for serially interconnecting the communication means of each of said at least one probe means in a daisy chain manner;
c) at least one current injection means connected to said at least one string for injecting a current in said at least one string upon receipt of a control signal; and
d) a system server connected to said bus and configured to select one of said at least one probe means, to transmit control signals to a selected one of said at least one probe means and to receive information signals relating to the characteristics of the corresponding portion, memory means for storing said information signals, calculating means for calculating a plurality of values relating to said characteristics and alarm means for raising an alarm when one or more of said values is outside a predetermined range, said system server being operatively connected to said at least one current injection means for sending a control signal to said current injection means to inject a current in said at least one string. - View Dependent Claims (14, 15, 16, 17)
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18. A method of initializing a plurality of probes in a battery monitoring system, the battery monitoring system including:
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a) a plurality of batteries connected in series to form at least one string of batteries;
b) a plurality of probe means for respectively probing one of said plurality of batteries, each of said probe means including;
i) a controllable sensing means for sensing a plurality of parameters of the corresponding battery;
ii) a communication means for communicating data to and from the controllable sensing means, the data including control signals and information signals relating to the parameters of the corresponding battery that are selected by the control signal;
iii) a memory for memorizing an address assigned to the corresponding battery upon reception of an initialization signal;
iv) a bus for serially interconnecting the communication means of each of said at least one probe means in a daisy chain manner; and
c) a system server connected to said bus and configured to transmit an initialization signal, to receive respective addresses from each of said at least one probe means, to select one of said at least one probe, to transmit control signals to a selected one of said at least one probe and to receive information signals relating to the characteristics of the corresponding battery, memory means for storing said information signals, calculating means for calculating a plurality of values relating to said characteristics and alarm means for raising an alarm when one or more of said values is outside a predetermined range;
the method comprising the steps of;
a) sending an initialize request on the bus means to all probes so that all probes erases their present address and set themselves in listen mode;
b) for each probe in each string;
i) selecting a probe by setting a low voltage on a probe select line;
ii) sending from said probe to the server an active state confirmation;
iii) sending an address to the said probe;
iv) registering said address in said probe and acknowledging said registration;
v) upon receipt of said acknowledgement, sending a signal to said probe to deselect itself and select the next probe in the chain; and
c) performing each of said steps i) to v) for each of said probes in each of said strings.
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19. A method for measuring the impedance of a plurality of batteries connected in series to form at least one string of batteries, each of said batteries being provided with probe means for measuring the voltage across each of said batteries respectively, the method comprising the steps of:
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a) providing a current injection means for each of said at least one string of batteries;
b) injecting a current in each of said strings;
c) measuring the voltage across each of said batteries;
d) calculating the impedance of each of said batteries by dividing said voltage by said current for each of said batteries. - View Dependent Claims (20)
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Specification