OX16C950 OXFORD [Oxford Semiconductor], OX16C950 Datasheet - Page 33

OX16C950

Manufacturer Part Number

OX16C950

Description

High Performance UART with 128 byte FIFOs

Manufacturer

OXFORD [Oxford Semiconductor]

Datasheet

1.OX16C950.pdf (49 pages)

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14.4

A system clock must be applied to XTLI pin on the device

(or CLKSEL if selected by software). The speed of this

clock determines the maximum baud rate at which the

device can receive and transmit serial data. This maximum

is equal to one sixteenth of the frequency of the system

clock (Increasing to one quarter of this value if TCR=4 is

used).

The industry standard system clock for PC COM ports is

1.8432 MHz, limiting the maximum baud rate to 115.2

Kbps. The OX16C95x UARTs support system clocks up to

50MHz (60MHz for the OX16C950 at 5V) and its flexible

baud rate generation hardware means that almost any

frequency can be optionally scaled down for compatibility

with standard devices.

Designers have the option of using either TTL clock

modules or crystal oscillator circuits for system clock input,

with minimal additional components. The following two

sections describe how each can be connected.

14.5

Using a TTL module for the system clock simply requires

the module to be supplied with +5v power and GND

connections. The clock output can then be connected

directly to XTLI. XTLO should be left unconnected.

14.6

The transmitter and receiver can accept an external clock

applied to the RI# and DSR# pins respectively. The clock

options are selected using the clock select register (CKS -

see section 15.8). The transmitter and receiver may be

configured to operate in 1x (Isochronous) mode by setting

CKS[7] and CKS[3], respectively. In Isochronous mode,

transmitter or receiver will use the 1x clock (usually but not

Data Sheet Revision 1.2

OXFORD SEMICONDUCTOR LTD.

Input Clock Options

TTL Clock Module

External 1x Clock Mode

Figure 2: TTL Clock Module Connectivity

CLOCK

VDD

XTLI

necessarily an external source) where asynchronous

framing is maintained using start, parity and stop-bits.

However serial transmission and reception is synchronised

to the 1x clock. In this mode asynchronous data may be

transmitted at baud rates up to 60Mbps. The local 1x clock

source can be asserted on the DTR# pin.

Note that line drivers need to be capable of transmission at

data rates twice the system clock used (as one cycle of the

system clock corresponds to 1 bit of serial data). Also note

that enabling modem interrupts is illegal in isochronous

mode, as the clock signal will cause a continuous change

to the modem status (unless masked in MDM register, see

section 15.10).

14.7

The OX16C950 may be clocked by a crystal connected to

XTLI and XTLO or directly from a clock source connected

to the XTLI pin (or CLKSEL if selected by software). The

circuit required to use the on-chip oscillator is shown

opposite.

Note:

Frequency

1.8432 – 8

Range

(MHz)

8-60

XTLO

XTLI

Crystal Oscillator Circuit

For better stability use a smaller value of R

The total capacitive load (C1 in series with C2) should

be that specified by the crystal manufacturer (nominally

16pF)

Figure 3: Crystal Oscillator Circuit

to reduce power consumption.

Table 19: Component Values

C1 (pF)

33-68

C2 (pF)

33 – 68

OX16C950 rev B

220K-2M2

R1 (Ω)

220K

. Increase

Page 33

R2 (Ω)

470R

OX16C950 OXFORD [Oxford Semiconductor], OX16C950 Datasheet - Page 33

OX16C950

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