A bonding device for bonding an electronic element includes an engaging component. The engaging component has a first surface and a second surface opposite to the first surface. The engaging component includes a plurality of recesses at the second surface. The plurality of recesses are configured to cover a plurality of projections of an electronic element. The engaging component is coupled to a heating component.

A bonding device for bonding an electronic element includes an engaging component. The engaging component has a first surface and a second surface opposite to the first surface. The engaging component includes a plurality of recesses at the second surface. The plurality of recesses are configured to cover a plurality of projections of an electronic element. The engaging component is coupled to a heating component.

A method includes, receiving a layout design of at least part of an electronic module, the design specifying at least (i) an electronic device coupled to at least a substrate, and (ii) an electrical trace that is connected to the electronic device and has a designed route. A digital input, which represents at least part of an actual electronic module that was manufactured in accordance with the layout design but without at least a portion of the electrical trace, is received. An error in coupling the electronic device to the substrate, relative to the layout design, is estimated based on the digital input. An actual route that corrects the estimated error, is calculated for at least the portion of the electrical trace. At least the portion of the electrical trace is formed on the substrate of the actual electronic module, along the actual route instead of the designed route.

A method includes, receiving a layout design of at least part of an electronic module, the design specifying at least (i) an electronic device coupled to at least a substrate, and (ii) an electrical trace that is connected to the electronic device and has a designed route. A digital input, which represents at least part of an actual electronic module that was manufactured in accordance with the layout design but without at least a portion of the electrical trace, is received. An error in coupling the electronic device to the substrate, relative to the layout design, is estimated based on the digital input. An actual route that corrects the estimated error, is calculated for at least the portion of the electrical trace. At least the portion of the electrical trace is formed on the substrate of the actual electronic module, along the actual route instead of the designed route.

An active substrate includes a plurality of active components distributed over a surface of a destination substrate, each active component including a component substrate different from the destination substrate, and each active component having a circuit and connection posts on a process side of the component substrate. The connection posts may have a height that is greater than a base width thereof, and may be in electrical contact with the circuit and destination substrate contacts. The connection posts may extend through the surface of the destination substrate contacts into the destination substrate connection pads to electrically connect the connection posts to the destination substrate contacts.

The present invention provides an exposure apparatus which exposes a substrate, comprising a measurement unit configured to measure a height of the substrate at each of a plurality of measurement points, and a control unit configured to control the height of the substrate based on measurement results obtained by the measurement unit, and control an operation to arrange a shot region of the substrate in a first position and expose the shot region, wherein the shot region includes a plurality of partial regions, and the control unit causes the measurement unit to measure the height of the substrate by arranging the shot region in a second position different from the first position so that the number of measurement points arranged in the plurality of partial regions is larger than that when arranging the shot region in the first position.

An active substrate includes a plurality of active components distributed over a surface of a destination substrate, each active component including a component substrate different from the destination substrate, and each active component having a circuit and connection posts on a process side of the component substrate. The connection posts may have a height that is greater than a base width thereof, and may be in electrical contact with the circuit and destination substrate contacts. The connection posts may extend through the surface of the destination substrate contacts into the destination substrate connection pads to electrically connect the connection posts to the destination substrate contacts,

An active substrate includes a plurality of active components distributed over a surface of a destination substrate, each active component including a component substrate different from the destination substrate, and each active component having a circuit and connection posts on a process side of the component substrate. The connection posts may have a height that is greater than a base width thereof, and may be in electrical contact with the circuit and destination substrate contacts. The connection posts may extend through the surface of the destination substrate contacts into the destination substrate connection pads to electrically connect the connection posts to the destination substrate contacts.

The present invention provides an exposure apparatus which exposes a substrate, comprising a measurement unit configured to measure a height of the substrate at each of a plurality of measurement points, and a control unit configured to control the height of the substrate based on measurement results obtained by the measurement unit, and control an operation to arrange a shot region of the substrate in a first position and expose the shot region, wherein the shot region includes a plurality of partial regions, and the control unit causes the measurement unit to measure the height of the substrate by arranging the shot region in a second position different from the first position so that the number of measurement points arranged in the plurality of partial regions is larger than that when arranging the shot region in the first position.

An active substrate includes a plurality of active components distributed over a surface of a destination substrate, each active component including a component substrate different from the destination substrate, and each active component having a circuit and connection posts on a process side of the component substrate. The connection posts may have a height that is greater than a base width thereof, and may be in electrical contact with the circuit and destination substrate contacts. The connection posts may extend through the surface of the destination substrate contacts into the destination substrate connection pads to electrically connect the connection posts to the destination substrate contacts.