USB control circuit with built-in bypass function

What is claimed is: 1. A USB control circuit ( 110 ) of a USB hub device ( 100 ), wherein the USB hub device ( 100 ) comprises an upstream port ( 102 ) and a downstream port ( 104 ), the USB control circuit ( 110 ) comprising: an upstream interface ( 111 ); a downstream interface ( 112 ); a first switch circuit ( 113 ), utilized for coupling with the upstream port ( 102 ); a second switch circuit ( 114 ), utilized for coupling with the downstream port ( 104 ); a control signal transmission interface ( 115 ), coupled with the first switch circuit ( 113 ) and the second switch circuit ( 114 ); and a control unit ( 117 ), coupled with the control signal transmission interface ( 115 ), arranged to operably control the first switch circuit ( 113 ) and the second switch circuit ( 114 ) through the control signal transmission interface ( 115 ), so that the first switch circuit ( 113 ) selectively couples one of the upstream interface ( 111 ) and the second switch circuit ( 114 ) to the upstream port ( 102 ) while the second switch circuit ( 114 ) selectively couples one of the downstream interface ( 112 ) and the first switch circuit ( 113 ) to the downstream port ( 104 ); wherein when the control unit ( 117 ) controls the first switch circuit ( 113 ) to couple the second switch circuit ( 114 ) to the upstream port ( 102 ) and also controls the second switch circuit ( 114 ) to couple the first switch circuit ( 113 ) to the downstream port ( 104 ), the first switch circuit ( 113 ) is de-coupled from the upstream interface ( 111 ) and the second switch circuit ( 114 ) is de-coupled from the downstream interface ( 112 ) such that no signal is transmitted between the first switch circuit ( 113 ) and the upstream interface ( 111 ) while no signal is transmitted between the second switch circuit ( 114 ) and the downstream interface ( 112 ). 2. The USB control circuit ( 110 ) of claim 1 , wherein when the upstream port ( 102 ) is connected to an OTG device, the downstream port ( 104 ) is connected to a USB host device, the first switch circuit ( 113 ) couples the second switch circuit ( 114 ) to the upstream port ( 102 ), and the second switch circuit ( 114 ) couples the first switch circuit ( 113 ) to the downstream port ( 104 ), the OTG device is enabled to operate as a USB peripheral device to communicate data with the USB host device. 3. The USB control circuit ( 110 ) of claim 1 , wherein when a predetermined command is received by the control unit ( 117 ), the control unit ( 117 ) controls the first switch circuit ( 113 ) to couple the second switch circuit ( 114 ) to the upstream port ( 102 ) and controls the second switch circuit ( 114 ) to couple the first switch circuit ( 113 ) to the downstream port ( 104 ). 4. The USB control circuit ( 110 ) of claim 3 , further comprising: a command receiving interface ( 116 ), coupled with the control unit ( 117 ), arranged to operably receive the predetermined command from an external circuit and to operably transmit the predetermined command to the control unit ( 117 ). 5. The USB control circuit ( 110 ) of claim 1 , wherein the first switch circuit ( 113 ) or the second switch circuit ( 114 ) is a multiplexer. 6. The USB control circuit ( 110 ) of claim 1 , wherein when the control unit ( 117 ) controls the first switch circuit ( 113 ) to couple the second switch circuit ( 114 ) to the upstream port ( 102 ) and also controls the second switch circuit ( 114 ) to couple the first switch circuit ( 113 ) to the downstream port ( 104 ), the upstream port ( 102 ) and the downstream port ( 104 ) transmit signals through a signal channel ( 123 ) between the first switch circuit ( 113 ) and the second switch circuit ( 114 ) without using the upstream interface ( 111 ) and the downstream interface ( 112 ) as intermediate circuits. 7. The USB control circuit ( 110 ) of claim 6 , wherein when the control unit ( 117 ) controls the first switch circuit ( 113 ) to couple the second switch circuit ( 114 ) to the upstream port ( 102 ) and also controls the second switch circuit ( 114 ) to couple the first switch circuit ( 113 ) to the downstream port ( 104 ), the upstream interface ( 111 ) and the downstream interface ( 112 ) are capable of being turned off to reduce power consumption.