Test system for determining the orientation of components on a circuit board
First Claim
1. A test system for determining the orientation of a component that has multiple power or ground pins and signal pins, the component being mounted on a circuit board and oriented relative to signal-pin, power and ground tracks on the board, the system including:
- A. a signal source for producing a test signal;
B. a capacitive probe for sensing voltages on pins of the component;
C. guarding means for holding to a voltage that corresponds to the voltage sensed by the capacitive probe nodes to which the component pins other than the pin under test are connected;
D. scanning means for selectively applying the test signal to the signal-pin track to which the pin under test is connected and connecting the guarding means through an impedance to the nodes that connect to the remaining pins of the component;
E. means for measuring the voltage at the capacitive probe; and
F. means for determining if the component is misoriented, said means comparing the measured voltage with a predetermined test threshold that is associated with a signal pin connected to the same track and determining that the component is misoriented if the measured voltage exceeds the predetermined test threshold.
6 Assignments
0 Petitions
Accused Products
Abstract
The invention is a tester that uses a capacitive probe to test whether components that have multiple power and/or ground pins are correctly oriented relative to the signal-pin tracks on a circuit board. The tester connects, to the signal-pin track to which the pin under test is connected, a test-signal source that supplies to that pin a relatively high-voltage test signal. The tester actively guards the pin by applying to the remaining component pins, through the tester scanning system and its internal resistance, a signal that has the same voltage as that sensed by the capacitive probe. If the component is oriented such that one of the multiple power or ground pins is connected to the signal-pin track to which the test signal is applied, the test signal appears also at the other power or ground pins, since these pins are interconnected by a low impedance path through the component. The signals on these interconnected pins are capacitively coupled through the component lead frame to the capacitive probe, which senses a much higher voltage than it does when the test signal appears at a single signal pin. Accordingly, the tester determines if a power or ground pin is connected to the signal-pin track by comparing the voltage at the capacitive probe with a predetermined threshold. The tester may also determine how much the component is misoriented by testing each of the pins and comparing the measured voltages with rotation patterns, which are determined by mapping the thresholds associated with the pins of a properly oriented component to the pin locations to which the pins may be rotated if the component were incorrectly oriented.
-
Citations
8 Claims
-
1. A test system for determining the orientation of a component that has multiple power or ground pins and signal pins, the component being mounted on a circuit board and oriented relative to signal-pin, power and ground tracks on the board, the system including:
-
A. a signal source for producing a test signal; B. a capacitive probe for sensing voltages on pins of the component; C. guarding means for holding to a voltage that corresponds to the voltage sensed by the capacitive probe nodes to which the component pins other than the pin under test are connected; D. scanning means for selectively applying the test signal to the signal-pin track to which the pin under test is connected and connecting the guarding means through an impedance to the nodes that connect to the remaining pins of the component; E. means for measuring the voltage at the capacitive probe; and F. means for determining if the component is misoriented, said means comparing the measured voltage with a predetermined test threshold that is associated with a signal pin connected to the same track and determining that the component is misoriented if the measured voltage exceeds the predetermined test threshold. - View Dependent Claims (2, 3)
-
-
4. A test system for determining the orientation of a component that has multiple power or ground pins and signal pins, the component being mounted on a circuit board and oriented relative to signal-pin, power and ground tracks on the board, the system including:
-
A. a signal source for producing a test signal; B. a capacitive probe for sensing voltages on pins of the component; C. guarding means for holding to a voltage that corresponds to the voltage sensed by the capacitive probe nodes to which the component pins other than the pin under test are connected; D. scanning means for selectively applying the test signal to the track to which the pin under test is connected and connecting the guarding means through an impedance to the signal nodes that connect to the remaining pins of the component, the scanning means applying the test signal to each of the component pins in a specified order; E. means for measuring the voltage at the capacitive probe; and F. means for determining the orientation of the component, said means comparing the measured voltages associated with the pins of the component with predetermined voltage patterns associated with different orientations of the component relative to the tracks, said means determining that the component is correctly oriented if the measured voltages are closest to the pattern that corresponds to the correct orientation. - View Dependent Claims (5, 6)
-
-
7. A method for testing for the orientation of a component relative to signal tracks on a circuit board on which the component is mounted, the method including the steps of:
-
A. for a properly oriented component i. connecting active guarding circuitry to the tracks to which a pin not then under test is connected; ii. connecting a signal source to the track to which the pin under test is connected; iii. measuring the voltage associated with the pin under test; iv. recording the measured voltage; and v. repeating steps i-iv for each of the pins of the component; B. determining voltage patterns associated with possible rotations of the component; C. repeating steps i-v for a component under test; D. comparing the measured voltages associated with the is component under test with the voltage patterns; and E. determining the orientation of the component under test by determining to which of the patterns the measured voltages are closest. - View Dependent Claims (8)
-
Specification