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PDF SCN68562 Data sheet ( Hoja de datos )

Número de pieza SCN68562
Descripción Dual universal serial communications controller DUSCC
Fabricantes Philips 
Logotipo Philips Logotipo



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INTEGRATED CIRCUITS
SCN68562
Dual universal serial communications
controller (DUSCC)
Product specification
IC19 Data Handbook
1995 May 01
Philips
Semiconductors

1 page




SCN68562 pdf
Philips Semiconductors
Dual universal serial communications controller (DUSCC)
Product specification
SCN68562
PIN DESCRIPTION
In this data sheet, signals are discussed using the terms ‘active’ and ‘inactive’ or ‘asserted’ and ‘negated’ independent of whether the signal is
active in the High (logic 1) or Low (logic 0) state. N at the end of a pin name signifies the signal associated with the pin is active-Low (see
individual pin description for the definition of the active level of each signal.) Pins which are provided for both channels are designated by A/B
after the name of the pin and the active-Low state indicator, N, if applicable. A similar method is used for registers provided for both channels:
these are designated by either an underline or by A/B after the name.
MNEMONIC
A1 – A6
D0 – D7
R/WN
CSN
DTACKN
IRQN
IACKN
X1/CLK
X2/IDCN
RESETN
RxDA, RxDB
DIP
PIN NO.
4-2,
45-47
31-28,
21-18
26
25
22
6
1
43
42
7
37, 12
TYPE
I
I/O
I
I
O
O
I
I
O
I
I
NAME AND FUNCTION
Address Lines: Active-High. Address inputs which specify which of the internal registers
is accessed for read/write operation.
Bidirectional Data Bus: Active High, 3-State. Bit 0 is the LSB and bit 7 is the MSB. All
data, command, and status transfers between the CPU and the DUSCC take place over
this bus. The data bus is enabled when CSN is Low, during interrupt acknowledge cycles
and single-address DMA acknowledge cycles.
Read/Write: A High input indicates a read cycle and a Low input indicates a write cycle
when a cycle is initiated by assertion of the CSN input.
Chip Select: Active-Low input. When Low, data transfers between the CPU and the
DUSCC are enabled on D0 – D7 as controlled by the R/WN and A1 – A6 inputs. When
CSN is High, the DUSCC is isolated from the data bus (except during interrupt
acknowledge cycles and single-address DMA transfers) and D0 – D7 are placed in the
3-State condition.
Data Transfer Acknowledge: Active-Low, 3-State. DTACKN is asserted on a write cycle
to indicate that the data on the bus has been latched, and on a read cycle or interrupt
acknowledge cycle to indicate valid data is on the bus. The signal is negated when
completion of the cycle is indicated by negation of the CSN or IACKN input, and returns to
the inactive state (3-State) a short period after it is negated. In a single address DMA
mode, data is latched with the falling edge of DTCN. DTACKN is negated when
completion of the cycle is indicated by the assertion of DTCN or negation of DMA
acknowledge inputs (whichever occurs first), and returns to the inactive state (3-State) a
short period after it is negated. When negated, DTACKN becomes an open-drain output
and requires an external pull-up resistor.
Interrupt Request: Active-Low, open-drain. This output is asserted upon occurrence of
any enabled interrupting condition. The CPU can read the general status register to
determine the interrupting condition(s), or can respond with an interrupt acknowledge cycle
to cause the DUSCC to output an interrupt vector on the data bus.
Interrupt Acknowledge: Active-Low. When IACKN is asserted, the DUSCC responds by
placing the contents of the interrupt vector register (modified or unmodified by status) on
the data bus and asserting DTACKN. If no active interrupt is pending, DTACKN is not
asserted.
Crystal or External Clock: When using the crystal oscillator, the crystal is connected
between pins X1 and X2. If a crystal is not used, and external clock is supplied at this
input. This clock is used to drive the internal bit rate generator, as an optional input to the
counter/timer or DPLL, and to provide other required clocking signals.
Crystal or Interrupt Daisy Chain: When a crystal is used as the timing source, the
crystal is connected between pins X1 and X2. This pin can be programmed to provide and
interrupt daisy chain active-Low output which propagates the IACKN signal to lower priority
devices, if no active interrupt is pending. This pin should be grounded when an external
clock is used on X1 and X2, is not used as an interrupt daisy chain output.
Master Reset: Active-Low. A low on this pin resets the transmitters and receivers and
resets the registers shown in Table 1 of the CDUSCC Users’ Guide. Reset in
asynchronous, i.e., no clock is required.
Channel A (B) Receiver Serial Data Input: The least significant bit is received first. If
external receiver clock is specified for the channel, the input is sampled on the rising edge
of the clock.
TxDA, TxDB
36, 13
O Channel A (B) Transmitter Serial Data Output: The least significant bit is transmitted
first. This output is held in the marking (High) condition when the transmitter is disabled or
when the channel is operating in local loopback mode. If external transmitter clock is
specified for the channel, the data is shifted on the falling edge of the clock.
RTxCA, RTxCB
39, 10
I/O Channel A (B) Receiver/Transmitter Clock: As an input, it can be programmed to
supply the receiver, transmitter, counter/timer, or DPLL clock. As an output, can supply the
counter/timer output, the transmitter shift clock (1X), or the receiver sampling clock (1X).
The maximum external receiver/transmitter clock frequency is 4MHz.
1995 May 01
5

5 Page





SCN68562 arduino
Philips Semiconductors
Dual universal serial communications controller (DUSCC)
Product specification
SCN68562
RWN
CSN
GPI1N
AND/OR GPI2N
16
17
X1/CLK
CTCLK
RxC
TxC
RWN
CSN
GPO1N
AND/OR GPO2N
18
OLD DATA
NEW DATA
DTACK
Figure 8. Port Timing
SD00230
CSN
IRQN
VM
19
VOL +0.5V
VOL
SD00231
Figure 9. Interrupt Timing
+5V
DRIVING FROM
EXTERNAL
SOURCE
+5V
C1 = C2: 0-5pF + (STRAY < 5pF)
1K
CLOCK
TO OTHER
CHIPS
20 470
X1
X1 C1
DUSCC
20
C2
X2
X2
14.7456 MHz
CRYSTAL SERIES RESISTANCE3 SHOULD
BE LESS THAN 180
SD00232
Figure 10. Clock Timing
1995 May 01
11

11 Page







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