Datasheet
73S1215F Data Sheet DS_1215F_003
100 Rev. 1.4
SC Clock Configuration Register (SCCLK): 0xFE0F Å 0x0C
This register controls the internal smart card (CLK) clock generation.
Table 94: The SCCLK Register
MSB LSB
– – ICLKFS.5 ICLKFS.4 ICLKFS.3 ICLKFS.2 ICLKFS.1 ICLKFS.0
Bit Symbol Function
SCCLK.7 –
SCCLK.6 –
SCCLK.5 ICLKFS.5
Internal Smart Card CLK Frequency Select – Division factor to determine
internal smart card CLK frequency. MCLK clock is divided by (register
value + 1) to clock the ETU divider, and then by 2 to generate CLK. Default
ratio is 13. The programmed value in this register is applied to the divider
after this value is written, in such a manner as to produce a glitch-free
output, regardless of the selection of active interface. A register value = 0
will default to the same effect as register value = 1.
SCCLK.4 ICLKFS.4
SCCLK.3 ICLKFS.3
SCCLK.2 ICLKFS.2
SCCLK.1 ICLKFS.1
SCCLK.0 ICLKFS.0
External SC Clock Configuration Register (SCECLK): 0xFE10 Å 0x0C
This register controls the external smart card (SCLK) clock generation.
Table 95: The SCECLK Register
MSB LSB
– – ECLKFS.5 ECLKFS.4 ECLKFS.3 ECLKFS.2 ECLKFS.1 ECLKFS.0
Bit Symbol Function
SCECLK.7 –
SCECLK.6 –
SCECLK.5 ECLKFS.5
External Smart Card CLK Frequency Select – Division factor to determine
external smart card CLK frequency. MCLK clock is divided by (register
value + 1) to clock the ETU divider, and then by 2 to generate SCLK.
Default ratio is 13. The programmed value in this register is applied to the
divider after this value is written, in such a manner as to produce a glitch-
free output, regardless of the selection of active interface. A register value
= 0 will default to the same effect as register value = 1.
SCECLK.4 ECLKFS.4
SCECLK.3 ECLKFS.3
SCECLK.2 ECLKFS.2
SCECLK.1 ECLKFS.1
SCECLK.0 ECLKFS.0