The IEEE1394 interface, also known as the Firewire interface, is a serial standard developed by Apple. Like USB, IEEE1394 also supports hot-plugging of peripherals, which can provide power for peripherals, eliminating the need for their own power supplies. It can connect to multiple different devices and support synchronous data transmission. IEEE1394 is divided into two transmission modes: backplane mode and Cable mode. The minimum rate in backplane mode is also higher than the maximum rate of USb1.1, which are 12.5Mbps/s, 25Mbps/s, and 50Mbps/s respectively, and can be used for most high-bandwidth applications. Cable mode is a very fast mode, divided into 100Mbps/s, 200Mbps/s and 400Mbps/s. At 200Mbps/s, high-quality data movies without compression can be transmitted.

The 1394 connection is for the video capture card installed in your computer, referred to as the 1394 card. Mainly used to capture video, such as video cameras and digital cameras. Nowadays, new video cameras and digital cameras all use USB interfaces, but if you want to obtain very clear images, you still need to use a 1394 card.

The predecessor of 1394 was drafted by Apple in 1986. Apple called it FireWire, Sony called it i.Link, and Texa Instruments called it Lynx. In fact, all trademark names were They all refer to the same technology - IEEE 1394.

IEEE 1394 is a high-speed serial bus designed to enhance the connection performance of external multimedia devices and computers. The transmission rate can reach 400Mbps. Using IEE1394 technology, we can easily connect computers and cameras, high-speed hard disks, and audio equipment Connect to a variety of multimedia devices.

IEEE 1394 has two data transmission modes - synchronous (Isochonous) transmission and asynchronous (Asynchronous) transmission. The synchronous transmission mode will ensure the bandwidth of a certain connection. This is very important for real-time images, because audio and video data will have its own time limit, and excessive delays cannot be accepted.

IEEE 1394 supports hot swapping, which can automatically detect the addition and removal of devices and reintegrate the system without manual intervention.

The cable used by IEEE 1394 includes six copper wires, 2 of which are used to power the device, providing a voltage of 8-30 volts and a maximum power supply of 1.5 amps, and the other 4 are used for data signal transmission .

The IEEE1394 interface, also known as the Firewire interface, is a serial standard developed by Apple. Like USB, IEEE1394 also supports hot-plugging of peripherals, which can provide power for peripherals, eliminating the need for their own power supplies. It can connect to multiple different devices and support synchronous data transmission. IEEE1394 is divided into two transmission modes: backplane mode and Cable mode. The minimum rate in backplane mode is also higher than the maximum rate of USb1.1, which are 12.5Mbps/s, 25Mbps/s, and 50Mbps/s respectively, and can be used for most high-bandwidth applications. Cable mode is a very fast mode, divided into 100Mbps/s, 200Mbps/s and 400Mbps/s. At 200Mbps/s, high-quality data movies without compression can be transmitted.

The 1394 connection is for the video capture card installed in your computer, referred to as the 1394 card. Mainly used to capture video, such as video cameras and digital cameras. Nowadays, new video cameras and digital cameras all use USB interfaces, but if you want to obtain very clear images, you still need to use a 1394 card.

The predecessor of 1394 was drafted by Apple in 1986. Apple called it FireWire, Sony called it i.Link, and Texa Instruments called it Lynx. In fact, all trademark names were They all refer to the same technology - IEEE 1394.

IEEE 1394 is a high-speed serial bus designed to enhance the connection performance of external multimedia devices and computers. The transmission rate can reach 400Mbps. Using IEE1394 technology, we can easily connect computers and cameras, high-speed hard disks, and audio equipment Connect to a variety of multimedia devices.

IEEE 1394 has two data transmission modes - synchronous (Isochonous) transmission and asynchronous (Asynchronous) transmission. The synchronous transmission mode will ensure the bandwidth of a certain connection. This is very important for real-time images, because audio and video data will have its own time limit, and excessive delays cannot be accepted.

IEEE 1394 supports hot swapping, which can automatically detect the addition and removal of devices and reintegrate the system without manual intervention.

The cable used by IEEE 1394 includes six copper wires, 2 of which are used to power the device, providing a voltage of 8-30 volts and a maximum power supply of 1.5 amps, and the other 4 are used for data signal transmission .

The IEEE1394 interface, also known as the Firewire interface, is a serial standard developed by Apple. Like USB, IEEE1394 also supports hot-plugging of peripherals, which can provide power for peripherals, eliminating the need for their own power supplies. It can connect to multiple different devices and support synchronous data transmission. IEEE1394 is divided into two transmission modes: backplane mode and Cable mode. The minimum rate in backplane mode is also higher than the maximum rate of USb1.1, which are 12.5Mbps/s, 25Mbps/s, and 50Mbps/s respectively, and can be used for most high-bandwidth applications. Cable mode is a very fast mode, divided into 100Mbps/s, 200Mbps/s and 400Mbps/s. At 200Mbps/s, high-quality data movies without compression can be transmitted.

The 1394 connection is for the video capture card installed in your computer, referred to as the 1394 card. Mainly used to capture video, such as video cameras and digital cameras. Nowadays, new video cameras and digital cameras all use USB interfaces, but if you want to obtain very clear images, you still need to use a 1394 card.

The predecessor of 1394 was drafted by Apple in 1986. Apple called it FireWire, Sony called it i.Link, and Texa Instruments called it Lynx. In fact, all trademark names were They all refer to the same technology - IEEE 1394.

IEEE 1394 is a high-speed serial bus designed to enhance the connection performance of external multimedia devices and computers. The transmission rate can reach 400Mbps. Using IEE1394 technology, we can easily connect computers and cameras, high-speed hard disks, and audio equipment Connect to a variety of multimedia devices.

IEEE 1394 has two data transmission modes - synchronous (Isochonous) transmission and asynchronous (Asynchronous) transmission. The synchronous transmission mode will ensure the bandwidth of a certain connection. This is very important for real-time images, because audio and video data will have its own time limit, and excessive delays cannot be accepted.

IEEE 1394 supports hot swapping, which can automatically detect the addition and removal of devices and reintegrate the system without manual intervention.

The cable used by IEEE 1394 includes six copper wires, 2 of which are used to power the device, providing a voltage of 8-30 volts and a maximum power supply of 1.5 amps, and the other 4 are used for data signal transmission .

The IEEE1394 interface, also known as the Firewire interface, is a serial standard developed by Apple. Like USB, IEEE1394 also supports hot-plugging of peripherals, which can provide power for peripherals, eliminating the need for their own power supplies. It can connect to multiple different devices and support synchronous data transmission. IEEE1394 is divided into two transmission modes: backplane mode and Cable mode. The minimum rate in backplane mode is also higher than the maximum rate of USb1.1, which are 12.5Mbps/s, 25Mbps/s, and 50Mbps/s respectively, and can be used for most high-bandwidth applications. Cable mode is a very fast mode, divided into 100Mbps/s, 200Mbps/s and 400Mbps/s. At 200Mbps/s, high-quality data movies without compression can be transmitted.

The 1394 connection is for the video capture card installed in your computer, referred to as the 1394 card. Mainly used to capture video, such as video cameras and digital cameras. Nowadays, new video cameras and digital cameras all use USB interfaces, but if you want to obtain very clear images, you still need to use a 1394 card.

The predecessor of 1394 was drafted by Apple in 1986. Apple called it FireWire, Sony called it i.Link, and Texa Instruments called it Lynx. In fact, all trademark names were They all refer to the same technology - IEEE 1394.

IEEE 1394 is a high-speed serial bus designed to enhance the connection performance of external multimedia devices and computers. The transmission rate can reach 400Mbps. Using IEE1394 technology, we can easily connect computers and cameras, high-speed hard disks, and audio equipment Connect to a variety of multimedia devices.

IEEE 1394 has two data transmission modes - synchronous (Isochonous) transmission and asynchronous (Asynchronous) transmission. The synchronous transmission mode will ensure the bandwidth of a certain connection. This is very important for real-time images, because audio and video data will have its own time limit, and excessive delays cannot be accepted.

IEEE 1394 supports hot swapping, which can automatically detect the addition and removal of devices and reintegrate the system without manual intervention.

The cable used by IEEE 1394 includes six copper wires, 2 of which are used to power the device, providing a voltage of 8-30 volts and a maximum power supply of 1.5 amps, and the other 4 are used for data signal transmission .

The IEEE1394 interface, also known as the Firewire interface, is a serial standard developed by Apple. Like USB, IEEE1394 also supports hot-plugging of peripherals, which can provide power for peripherals, eliminating the need for their own power supplies. It can connect to multiple different devices and support synchronous data transmission. IEEE1394 is divided into two transmission modes: backplane mode and Cable mode. The minimum rate in backplane mode is also higher than the maximum rate of USb1.1, which are 12.5Mbps/s, 25Mbps/s, and 50Mbps/s respectively, and can be used for most high-bandwidth applications. Cable mode is a very fast mode, divided into 100Mbps/s, 200Mbps/s and 400Mbps/s. At 200Mbps/s, high-quality data movies without compression can be transmitted.

The 1394 connection is for the video capture card installed in your computer, referred to as the 1394 card. Mainly used to capture video, such as video cameras and digital cameras. Nowadays, new video cameras and digital cameras all use USB interfaces, but if you want to obtain very clear images, you still need to use a 1394 card.

The predecessor of 1394 was drafted by Apple in 1986. Apple called it FireWire, Sony called it i.Link, and Texa Instruments called it Lynx. In fact, all trademark names were They all refer to the same technology - IEEE 1394.

IEEE 1394 is a high-speed serial bus designed to enhance the connection performance of external multimedia devices and computers. The transmission rate can reach 400Mbps. Using IEE1394 technology, we can easily connect computers and cameras, high-speed hard disks, and audio equipment Connect to a variety of multimedia devices.

IEEE 1394 has two data transmission modes - synchronous (Isochonous) transmission and asynchronous (Asynchronous) transmission. The synchronous transmission mode will ensure the bandwidth of a certain connection. This is very important for real-time images, because audio and video data will have its own time limit, and excessive delays cannot be accepted.

IEEE 1394 supports hot swapping, which can automatically detect the addition and removal of devices and reintegrate the system without manual intervention.

The cable used by IEEE 1394 includes six copper wires, 2 of which are used to power the device, providing a voltage of 8-30 volts and a maximum power supply of 1.5 amps, and the other 4 are used for data signal transmission .

The IEEE1394 interface, also known as the Firewire interface, is a serial standard developed by Apple. Like USB, IEEE1394 also supports hot-plugging of peripherals, which can provide power for peripherals, eliminating the need for their own power supplies. It can connect to multiple different devices and support synchronous data transmission. IEEE1394 is divided into two transmission modes: backplane mode and Cable mode. The minimum rate in backplane mode is also higher than the maximum rate of USb1.1, which are 12.5Mbps/s, 25Mbps/s, and 50Mbps/s respectively, and can be used for most high-bandwidth applications. Cable mode is a very fast mode, divided into 100Mbps/s, 200Mbps/s and 400Mbps/s. At 200Mbps/s, high-quality data movies without compression can be transmitted.

The 1394 connection is for the video capture card installed in your computer, referred to as the 1394 card. Mainly used to capture video, such as video cameras and digital cameras. Nowadays, new video cameras and digital cameras all use USB interfaces, but if you want to obtain very clear images, you still need to use a 1394 card.

The predecessor of 1394 was drafted by Apple in 1986. Apple called it FireWire, Sony called it i.Link, and Texa Instruments called it Lynx. In fact, all trademark names were They all refer to the same technology - IEEE 1394.

IEEE 1394 is a high-speed serial bus designed to enhance the connection performance of external multimedia devices and computers. The transmission rate can reach 400Mbps. Using IEE1394 technology, we can easily connect computers and cameras, high-speed hard disks, and audio equipment Connect to a variety of multimedia devices.

IEEE 1394 has two data transmission modes - synchronous (Isochonous) transmission and asynchronous (Asynchronous) transmission. The synchronous transmission mode will ensure the bandwidth of a certain connection. This is very important for real-time images, because audio and video data will have its own time limit, and excessive delays cannot be accepted.

IEEE 1394 supports hot swapping, which can automatically detect the addition and removal of devices and reintegrate the system without manual intervention.

The cable used by IEEE 1394 includes six copper wires, 2 of which are used to power the device, providing a voltage of 8-30 volts and a maximum power supply of 1.5 amps, and the other 4 are used for data signal transmission .

The IEEE1394 interface, also known as the Firewire interface, is a serial standard developed by Apple. Like USB, IEEE1394 also supports hot-plugging of peripherals, which can provide power for peripherals, eliminating the need for their own power supplies. It can connect to multiple different devices and support synchronous data transmission. IEEE1394 is divided into two transmission modes: backplane mode and Cable mode. The minimum rate in backplane mode is also higher than the maximum rate of USb1.1, which are 12.5Mbps/s, 25Mbps/s, and 50Mbps/s respectively, and can be used for most high-bandwidth applications. Cable mode is a very fast mode, divided into 100Mbps/s, 200Mbps/s and 400Mbps/s. At 200Mbps/s, high-quality data movies without compression can be transmitted.

The 1394 connection is for the video capture card installed in your computer, referred to as the 1394 card. Mainly used to capture video, such as video cameras and digital cameras. Nowadays, new video cameras and digital cameras all use USB interfaces, but if you want to obtain very clear images, you still need to use a 1394 card.

The predecessor of 1394 was drafted by Apple in 1986. Apple called it FireWire, Sony called it i.Link, and Texa Instruments called it Lynx. In fact, all trademark names were They all refer to the same technology - IEEE 1394.

IEEE 1394 is a high-speed serial bus designed to enhance the connection performance of external multimedia devices and computers. The transmission rate can reach 400Mbps. Using IEE1394 technology, we can easily connect computers and cameras, high-speed hard disks, and audio equipment Connect to a variety of multimedia devices.

IEEE 1394 has two data transmission modes - synchronous (Isochonous) transmission and asynchronous (Asynchronous) transmission. The synchronous transmission mode will ensure the bandwidth of a certain connection. This is very important for real-time images, because audio and video data will have its own time limit, and excessive delays cannot be accepted.

IEEE 1394 supports hot swapping, which can automatically detect the addition and removal of devices and reintegrate the system without manual intervention.

The cable used by IEEE 1394 includes six copper wires, 2 of which are used to power the device, providing a voltage of 8-30 volts and a maximum power supply of 1.5 amps, and the other 4 are used for data signal transmission .

The IEEE1394 interface, also known as the Firewire interface, is a serial standard developed by Apple. Like USB, IEEE1394 also supports hot-plugging of peripherals, which can provide power for peripherals, eliminating the need for their own power supplies. It can connect to multiple different devices and support synchronous data transmission. IEEE1394 is divided into two transmission modes: backplane mode and Cable mode. The minimum rate in backplane mode is also higher than the maximum rate of USb1.1, which are 12.5Mbps/s, 25Mbps/s, and 50Mbps/s respectively, and can be used for most high-bandwidth applications. Cable mode is a very fast mode, divided into 100Mbps/s, 200Mbps/s and 400Mbps/s. At 200Mbps/s, high-quality data movies without compression can be transmitted.

The 1394 connection is for the video capture card installed in your computer, referred to as the 1394 card. Mainly used to capture video, such as video cameras and digital cameras. Nowadays, new video cameras and digital cameras all use USB interfaces, but if you want to obtain very clear images, you still need to use a 1394 card.

The predecessor of 1394 was drafted by Apple in 1986. Apple called it FireWire, Sony called it i.Link, and Texa Instruments called it Lynx. In fact, all trademark names were They all refer to the same technology - IEEE 1394.

IEEE 1394 is a high-speed serial bus designed to enhance the connection performance of external multimedia devices and computers. The transmission rate can reach 400Mbps. Using IEE1394 technology, we can easily connect computers and cameras, high-speed hard disks, and audio equipment Connect to a variety of multimedia devices.

IEEE 1394 has two data transmission modes - synchronous (Isochonous) transmission and asynchronous (Asynchronous) transmission. The synchronous transmission mode will ensure the bandwidth of a certain connection. This is very important for real-time images, because audio and video data will have its own time limit, and excessive delays cannot be accepted.

IEEE 1394 supports hot swapping, which can automatically detect the addition and removal of devices and reintegrate the system without manual intervention.

The cable used by IEEE 1394 includes six copper wires, 2 of which are used to power the device, providing a voltage of 8-30 volts and a maximum power supply of 1.5 amps, and the other 4 are used for data signal transmission .