Renesas M16C/6NK Network Card User Manual


 
Rev.2.00 Nov 28, 2005 page 182 of 378
REJ09B0124-0200
M16C/6N Group (M16C/6NK, M16C/6NM) 15. Serial Interface
Under development
This document is under development and its contents are subject to change.
15.1.3.4 Transfer Clock
Data is transmitted/received using a transfer clock like the one shown in Figure 15.24.
The CSC bit in the UiSMR2 register is used to synchronize the internally generated clock (internal SCLi)
and an external clock supplied to the SCLi pin. In cases when the CSC bit is set to 1 (clock synchronization
enabled), if a falling edge on the SCLi pin is detected while the internal SCLi is high, the internal SCLi
goes low, at which time the value of the UiBRG register is reloaded with and starts counting in the
low-level interval. If the internal SCLi changes state from low to high while the SCLi pin is low, counting
stops, and when the SCLi pin goes high, counting restarts.
In this way, the UARTi transfer clock is comprised of the logical product of the internal SCLi and SCLi pin
signal. The transfer clock works from a half period before the falling edge of the internal SCLi 1st bit to
the rising edge of the 9th bit. To use this function, select an internal clock for the transfer clock.
The SWC bit in the UiSMR2 register allows to select whether the SCLi pin should be fixed to or freed
from low-level output at the falling edge of the 9th clock pulse.
If the SCLHI bit in the UiSMR4 register is set to 1 (enabled), SCLi output is turned off (placed in the
high-impedance state) when a stop condition is detected.
Setting the SWC2 bit in the UiSMR2 register = 1 (0 output) makes it possible to forcibly output a low-
level signal from the SCLi pin even while sending or receiving data. Setting the SWC2 bit to 0 (transfer
clock) allows the transfer clock to be output from or supplied to the SCLi pin, instead of outputting a low-
level signal.
If the SWC9 bit in the UiSMR4 register is set to 1 (SCL hold low enabled) when the CKPH bit in the
UiSMR3 register = 1, the SCLi pin is fixed to low-level output at the falling edge of the clock pulse next
to the ninth. Setting the SWC9 bit = 0 (SCL hold low disabled) frees the SCLi pin from low-level output.
15.1.3.5 SDA Output
The data written to bit 7 to bit 0 (D7 to D0) in the UiTB register is sequentially output beginning with D7.
The ninth bit (D8) is ACK or NACK.
The initial value of SDAi transmit output can only be set when IICM = 1 (I
2
C mode) and the SMD2 to
SMD0 bits in the UiMR register = 000b (serial interface disabled).
The DL2 to DL0 bits in the UiSMR3 register allow to add no delays or a delay of 2 to 8 UiBRG count
source clock cycles to SDAi output.
Setting the SDHI bit in the UiSMR2 register = 1 (SDA output disabled) forcibly places the SDAi pin in the
high-impedance state. Do not write to the SDHI bit synchronously with the rising edge of the UARTi
transfer clock. This is because the ABT bit may inadvertently be set to 1 (detected).
15.1.3.6 SDA Input
When the IICM2 bit = 0, the 1st to 8th bits (D7 to D0) of received data are stored in the bit 7 to bit 0 in the
UiRB register. The 9th bit (D8) is ACK or NACK.
When the IICM2 bit = 1, the 1st to 7th bits (D7 to D1) of received data are stored in the bit 6 to bit 0 in the
UiRB register and the 8th bit (D0) is stored in the bit 8 in the UiRB register. Even when the IICM2 bit = 1,
providing the CKPH bit = 1, the same data as when the IICM2 bit = 0 can be read out by reading the
UiRB register after the rising edge of the corresponding clock pulse of 9th bit.