Seismic data acquisition system and method for downhole use
First Claim
Patent Images
1. A method for conducting a downhole seismic survey comprising the steps of:
- assembling a string (18′
) having at least first and second sensor pods and a telemetry and control module by,a) providing said first and second sensor pods(12′
), each characterized by having a sensor (126) therein operatively coupled to a multiple-bit memory (28′
) structured for storing data therefrom, a processor (120) operatively coupled to said memory (28′
), a first node (72) in bi-directional communication with said memory (28′
) via a first communications converter (112), a second node (74) in bi-directional communication with said memory (28′
) via a second communications converter (114), and an inductor (106) electrically connected between said first node (72) and said second node (74),b) connecting a first cable between a telemetry and control module (21′
) and said first sensor pod (12′
), said first cable including an electrical conductor that is connected between said telemetry and control module (21′
) and said first node (72) of said first sensor pod (12′
), andc) connecting a second cable between said first sensor pod (12′
) and said second sensor pod (12′
), said second cable including an electrical conductor that is connected between said second node (74) of said first sensor pod and said first node (72) of said second sensor pod;
providing within said string a first signal path disposed between said telemetry and control module (21′
) and said memory (28′
) of said first sensor pod (12′
) including said electrical conductor of said first cable, said first node (72) of said first sensor pod (12′
), and said first communications converter (112) of said first sensor pod (12′
);
providing within said string a second signal path disposed between said memory (28′
) of said first sensor pod (12′
) and said memory (28′
) of said second sensor pod (12′
) including said second communications converter (114) of said first sensor pod (12′
), said second node (74) of said first sensor pod (12′
), said conductor of said second cable, said first node (72) of said second sensor pod (12′
), and said first communications converter (112) of said second sensor pod (12′
);
lowering said string into a borehole (14);
simultaneously collecting first seismic data by said sensor of said first sensor pod and second seismic data by said sensor of said second sensor pod;
storing said first sensor data in said memory of said first sensor pod while simultaneously storing said second sensor data in said memory of said second sensor pod;
thentransmitting said first data from said memory of said first sensor pod to said telemetry and control module via said first signal path while simultaneously transmitting said second data from said memory of said second sensor pod to said memory of said first sensor pod via said second signal path; and
thentransmitting said second data from said memory of said first sensor pod to said telemetry and control module via said first signal path.
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Abstract
A method and system for conducting a seismic survey by lowering a string of intelligent clampable sensor pods with 3-C sensors into a borehole. The string of pods is serially interconnected by a cable having a conductor pair which provides both power and data connectivity. The uppermost sensor pod is connected to a downhole telemetry and control module. The cables and pods use connectors to allow assembly, customization, repair, and disassembly on site. Each pod has an upper and a lower connector, a processor, and memory which is coupled to both the upper and the lower connectors. Each pod is capable of simultaneous and independent serial communications at each connector with the memory. The telemetry and control module is designed to query the pods to determine the system configuration. The telemetry and control module then simultaneously triggers all pods to acquire data, the pods storing the collected data locally in the memory. After data collection, the controller simultaneously signals the pods to immediately transfer data serially from the local memory to the next higher adjacent pod and receive data, if any, from the lower adjacent pod, if any, storing the received data in memory. The first data transferred from each pod is that data collected by its local sensors. Subsequent data originates from lower pods and is simply passed up the string of pods to the telemetry and control module. In other words, the pods communicate in a bucket brigade fashion.
60 Citations
6 Claims
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1. A method for conducting a downhole seismic survey comprising the steps of:
-
assembling a string (18′
) having at least first and second sensor pods and a telemetry and control module by,a) providing said first and second sensor pods(12′
), each characterized by having a sensor (126) therein operatively coupled to a multiple-bit memory (28′
) structured for storing data therefrom, a processor (120) operatively coupled to said memory (28′
), a first node (72) in bi-directional communication with said memory (28′
) via a first communications converter (112), a second node (74) in bi-directional communication with said memory (28′
) via a second communications converter (114), and an inductor (106) electrically connected between said first node (72) and said second node (74),b) connecting a first cable between a telemetry and control module (21′
) and said first sensor pod (12′
), said first cable including an electrical conductor that is connected between said telemetry and control module (21′
) and said first node (72) of said first sensor pod (12′
), andc) connecting a second cable between said first sensor pod (12′
) and said second sensor pod (12′
), said second cable including an electrical conductor that is connected between said second node (74) of said first sensor pod and said first node (72) of said second sensor pod;providing within said string a first signal path disposed between said telemetry and control module (21′
) and said memory (28′
) of said first sensor pod (12′
) including said electrical conductor of said first cable, said first node (72) of said first sensor pod (12′
), and said first communications converter (112) of said first sensor pod (12′
);providing within said string a second signal path disposed between said memory (28′
) of said first sensor pod (12′
) and said memory (28′
) of said second sensor pod (12′
) including said second communications converter (114) of said first sensor pod (12′
), said second node (74) of said first sensor pod (12′
), said conductor of said second cable, said first node (72) of said second sensor pod (12′
), and said first communications converter (112) of said second sensor pod (12′
);lowering said string into a borehole (14); simultaneously collecting first seismic data by said sensor of said first sensor pod and second seismic data by said sensor of said second sensor pod; storing said first sensor data in said memory of said first sensor pod while simultaneously storing said second sensor data in said memory of said second sensor pod;
thentransmitting said first data from said memory of said first sensor pod to said telemetry and control module via said first signal path while simultaneously transmitting said second data from said memory of said second sensor pod to said memory of said first sensor pod via said second signal path; and
thentransmitting said second data from said memory of said first sensor pod to said telemetry and control module via said first signal path. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification
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Current AssigneeSensorWise, Inc. (Sanmina-SCI Corporation)
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Original AssigneeSensorWise, Inc. (Sanmina-SCI Corporation)
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InventorsWisniewski, Laurence T., Varsamis, Georgios L., Arian, Abbas
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Primary Examiner(s)Keith; Jack W.
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Assistant Examiner(s)Hughes; Scott A
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Application NumberUS12/128,492Publication NumberTime in Patent Office356 DaysField of Search367/25, 367 76- 78, 367 81- 82, 340/853.1, 340/853.2, 340/853.3, 340/853.9US Class Current367/76CPC Class CodesG01V 11/002 Details, e.g. power supply ...
