The PCA9614 is a Fast-mode Plus (Fm+) SMBus/I²C-bus buffer that extends the normal
single-ended SMBus/I²C-bus through electrically noisy environments using a differential
SMBus/I²C-bus (dI²C) physical layer, which is transparent to the SMBus/I²C-bus protocol
layer. It consists of two single-ended to differential driver channels for the SCL (serial
clock), SDA (serial data).
The use of differential transmission lines between identical dI²C bus buffers removes
electrical noise and common-mode offsets that are present when signal lines must pass
between different voltage domains, are bundled with hostile signals, or run adjacent to
electrical noise sources, such as high energy power supplies and electric motors.
The SMBus/I²C-bus was conceived as a simple slow speed digital link for short runs,
typically on a single PCB or between adjacent PCBs with a common ground connection.
Applications that extend the bus length or run long cables require careful design to
preserve noise margin and reject interference.
The dI²C-bus buffers were designed to solve these problems and are ideally suited for
rugged high noise environments and/or longer cable applications, allow multiple slaves,
and operate at bus speeds up to 1 MHz clock rate. Cables can be extended to at least
three meters (3 m), or longer cable runs at lower clock speeds. The dI²C-bus buffers are
compatible with existing SMBus/I2C-bus devices and can drive Standard, Fast-mode, and
Fast-mode Plus devices on the single-ended side.
Signal direction is automatic and requires no external control. To prevent bus latch-up the
I²C-bus side employs static level offset. Take care when connecting the PCA9614 to other
SMBus/I²C-bus buffers that do not operate with other static level offset bus buffers.
These devices are a bridge between the normal 2-wire single-ended wired-OR
SMBus/I²C-bus and the 4-wire dI²C-bus.
The PCA9614 has two supply voltages, VDD(A) and VDD(B). VDD(A), the card side supply,
only serves as a reference and ranges from 2.3 V to 5.5 V. VDD(B), the line side supply,
serves as the majority supply for circuitry, and ranges from 3.0 V to 5.5 V.