Datasheet SCN26562C4N48 Datasheet (Philips)

INTEGRATED CIRCUITS

SCN26562

Dual universal serial communications
controller (DUSCC)

Product specification
IC19 Data Handbook

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1995 May 01

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

DESCRIPTION

The Philips Semiconductors SCN26562 Dual Universal Serial
Communications Controller (DUSCC) is a single-chip MOS-LSI
communications device that provides two independent,
multi-protocol, full-duplex receiver/transmitter channels in a single
package. It supports bit-oriented and character-oriented (byte count
and byte control) synchronous data link controls as well as
asynchronous protocols. The SCN26562 interfaces to synchronous
bus MPUs and is capable of program-polled, interrupt driven,
block-move or DMA data transfers.

The operating mode and data format of each channel can be
programmed independently. Each channel consists of a receiver, a
transmitter, a 16-bit multi-function counter/timer, a digital
phase-locked loop (DPLL), a parity/CRC generator and checker, and
associated control circuits. The two channels share a common bit
rate generator (BRG), operating directly from a crystal or an external
clock, which provides 16 common bit rates simultaneously. The
operating rate for the receiver and transmitter of each channel can
be independently selected from the BRG, the DPLL, the
counter/timer, or from an external 1X or 16X clock, making the
DUSCC well suited for dual-speed channel applications. Data rates
up to 4Mbits per second are supported.

The transmitter and receiver each contain a four-deep FIFO with
appended transmitter command and receiver status bits and a shift
register. This permits reading and writing of up to four characters at
a time, minimizing the potential of receiver overrun or transmitter
underrun, and reducing interrupt or DMA overhead. In addition, a
flow control capability is provided to disable a remote transmitter
when the FIFO of the local receiving device is full.

Two modem control inputs (DCD and CTS) and three modem
control outputs (RTS and two general purpose) are provided.
Because the modem control inputs and outputs are general purpose
in nature, they can be optionally programmed for other functions.

This document contains the electrical specifications for the
SCN26562. See SCN26562/SCN68562 User’s Guide for complete
functional description.

•Parity and FCS (frame check sequence LRC or CRC) generation

and checking

•Programmable data encoding/decoding: NRZ, NRZI, FM0, FM1,

Manchester

•Programmable channel mode: full- and half-duplex, auto-echo, or

local loopback

•Programmable data transfer mode: polled, interrupt, DMA, wait

•DMA interface

– Single- or dual-address dual transfers
– Half- or full-duplex operation
– Automatic frame termination on counter/timer terminal count or

DMA EOPN input

•Interrupt capabilities

– Vector output (fixed or modified by status)
– Programmable internal priorities
– Maskable interrupt conditions

•Multi-function programmable 16-bit counter/timer

– Bit rate generator
– Event counter
– Count received or transmitted characters
– Delay generator
– Automatic bit length measurement

•Modem controls

– RTS, CTS, DCD, and up to four general purpose pins per

channel

– CTS and DCD programmable auto-enables for Tx and Rx
– Programmable interrupt on change of CTS or DCD

•On-chip oscillator for crystal

•TTL compatible

•Single +5V power supply

FEA TURES
General Features

•Dual full-duplex synchronous/asynchronous receiver and

transmitter

•Multiprotocol operation

– BOP: HDLC/ADCCP, SDLC, SDLC loop, X.25 or X.75 link level,

etc.

– COP: BISYNC, DDCMP
– ASYNC: 5–8 bits plus optional parity

•Four character receiver and transmitter FIFOs

•0 to 4Mbit/sec data rate

•Programmable bit rate for each receiver and transmitter selectable

from:

– 16 fixed rates: 50 to 38.4k baud
– One user-defined rate derived from programmable

counter/timer

– External 1X or 16X clock
– Digital phase-locked loop

1995 May 01 853-0307 15179

Asynchronous Mode Features

•Character length: 5 to 8 bits

•Odd or even parity, no parity, or force parity

•Up to two stop bits programmable in 1/16-bit increments

•1X or 16X and Tx clock factors

•Parity, overrun, and framing error detection

•False start bit detection

•Start bit search 1/2-bit time after framing error detection

•Break generation with handshake for counting break characters

•Detection of start and end of received break

•Character compare with optional interrupt on match

•Transmits up to 4Mbit/sec data rate Receives up to 2Mbit/sec data

rate

2

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

Character-Oriented Protocol Features

•Character length: 5 to 8 bits

•Odd or even parity, no parity, or force parity

•LRC or CRC generation and checking

•Optional opening PAD transmission

•One or two SYN characters

•External sync capability

•SYN detection and optional stripping

•SYN or MARK line-fill on underrun

•Idle in MARK or SYNs

•Parity, FCS, overrun, and underrun error detection

BISYNC Features

•EBCDIC or ASCII header, text and control messages

•SYN, DLE stripping

•EOM (end of message) detection and transmission

•Auto transparent mode switching

•Auto hunt after receipt of EOM sequence (with closing PAD check

after EOT or NAK)

•Control character sequence detection for both transparent and

normal text

Bit-Oriented Protocol Features

•Character length: 5 to 8 bits

•Detection and transmission of residual character: 0–7 bits

•Automatic switch to programmed character length for I field

•Zero insertion and detection

•Optional opening PAD transmission

•Detection and generation of FLAG, ABORT, and IDLE bit patterns

•Detection and generation of shared (single) FLAG between

frames

•Detection of overlapping (shared zero) FLAGs

•ABORT, ABORT-FLAGs, or FCS FLAGs line-fill on underrun

•Idle in MARK or FLAGs

•Secondary address recognition including group and global

address

•Single- or dual-octet secondary address

•Extended address and control fields

•Short frame rejection for receiver

•Detection and notification of received end of message

•CRC generation and checking

•SDLC loop mode capability

ORDERING INFORMATION

VCC = +5V +5%, TA = 0°C to +70°C

DESCRIPTION

48-Pin Plastic Dual In-Line Package (DIP) SCN26562C4N48 SOT240-1
52-Pin Plastic Leaded Chip Carrier (PLCC) Package SCN26562C4A52 SOT238-3

ABSOLUTE MAXIMUM RATINGS

SYMBOL

T

A

T

STG

V

CC

V

S

NOTES:

1. Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only and
functional operation of the device at these or any other conditions above those indicated in the operation section of this specification is not
implied.

2. For operating at elevated temperatures, the device must be derated based on +150°C maximum junction temperature and thermal
resistance of 36°C/W junction to ambient for ceramic DIP, 40°C/W for plastic DIP, and 42°C/W for PLCC.

3. This product includes circuitry specifically designed for the protection of its internal devices from damaging effects of excessive static
charge. Nonetheless, it is suggested that conventional precautions be taken to avoid applying any voltages larger than the rated maxima.

Operating ambient temperature
Storage temperature -65 to +150 °C
Voltage from VCC to GND
Voltage from any pin to ground

1

PARAMETER RATING UNIT

2

3

3

Serial Data Rate =

4Mbps Maximum

0 to +70 °C

–0.5 to +7.0 V

–0.5 to VCC +0.5 V

DWG #

1995 May 01

3

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

PIN CONFIGURATIONS

IACKN

RTxDAKBN/

GPI1BN

IRQN

RDYN

RTSBN/

SYNOUTBN

TRxCB
RTxCB

DCDBN/

SYNIBN

RxDB

TxDB

TxDAKBN/

GPI2BN

RTxDRQBN/

GPO1BN

TxDRQBN/

GPO2BN/RTSBN

CTSBN/LCBN

RDN

RESETN

GND

1
2

A3

3

A2

4

A1

5
6
7
8

9
10
11
12
13
14
15
16
17
18

D7

19

D6

20

D5

21

D4

22
23

24

N PACKAGE

DIP

48

V

CC

47

A4

46

A5

45

A6
RTxDAKAN/

44

GPI1AN

43

X1/CLK

42

X2
RTSAN/

41

SYNOUTAN

40

TRxCA

39

RTxCA
DCDAN/

38

SYNIAN

37

RxDA

36

TxDA
TxDAKAN/

35

GPI2AN
RTxDRQAN/

34

GPO1AN
TxDRQAN/

33

GPO2AN/RTSAN

32

CTSAN/LCAN

31

D0

30

D1

29

D2

28

D3

27

EOPN

26

WRN

25

CEN

Figure 1. Pin Configurations

INDEX

CORNER

PIN FUNCTION PIN FUNCTION

A PACKAGE

7

1

8

PLCC

20

21

TOP VIEW

1 IACKN 27 CEN
2 A3 28 WRN
3 A2 29 EOPN
4A1 30D3
5 RTxDAKBN/ 31 D2

GPI1BN 32 D1
6 IRQN 33 D0
7NC 34NC
8 RDYN 35 CTSAN/LCAN
9 RTSBN/ 36 TxDRQAN/

SYNOUTBN GPO2AN/RTSAN
10 TRxCB 37 RTxDRQAN/
11 RTxCB GPO1AN
12 DCDBN/ 38 TxDAKAN/

SYNIBN GPI2AN
13 NC 39 TxDA
14 RxDB 40 RxDA
15 TxDB 41 NC
16 TxDAKBN/ 42 DCDAN/

GPI2BN SYNIAN
17 RTxDRQBN/ 43 RTxCA

GPO1BN 44 TRxCA
18 TxDRQBN/ 45 RTSAN/

GPO2BN/RTSBN SYNOUTAN
19 CTSBN/LCBN 46 X2
20 D7 47 X1/CLK
21 D6 48 RTxDAKAN/
22 D5 GPI1AN
23 D4 49 A6
24 RDN 50 A5
25 RESETN 51 A4

26 GND 52 V

47

46

34

33

CC

SD00203

1995 May 01

4

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

BLOCK DIAGRAM

CHANNEL
MODE AND
TIMING A/B

DPLL CLK

MUX A/B

D0–D7

RDYN

WRN

RDN

A1–A6

CEN

RESETN

RTxDRQAN/GPO1AN
RTxDRQBN/GPO1BN

TxDRQAN/GPO2AN

TxDRQBN/GPO2BN
RTxDAKAN/GPI1AN
RTxDAKBN/GPI1BN

TxDAKAN/GPI2AN
TxDAKBN/GPI2BN

EOPN

BUS

BUFFER

MPU

INTERFACE

DMA

INTERFACE

INTERFACE/
OPERATION

CONTROL

ADDRESS

DECODE

R/W

DECODE

DMA

CONTROL

CCRA/B
PCRA/B
RSRA/B

TRSRA/B

ICTSRA/B

GSR
CMR1A/B
CMR2A/B

OMRA/B

INTERNAL BUS

DPLLA/B

BRG

COUNTER

TIMER A/B

C/T CLK

MUX A/B

CTCRA/B
CTPRHA/B
CTPRLA/B

CTHA/B
CTLA/B

TRANSMIT

A/B

TRANS CLK

MUX

TPRA/B
TTRA/B

TX SHIFT

REG

TRANSMIT

4 DEEP

FIFO

CRC

GENERATOR

SPEC CHAR

GEN LOGIC

TxD A/B

CTSAN/LCAN

CTSBN/LCBN
DCDBN/SYNIBN
DCDAN/SYNIAN

RTSBN/SYNOUTBN
RTSAN/SYNOUTAN

1995 May 01

TRxCA/B
RTxCA/B

IRQN

IACKN

X1/CLK

CONTROL

SPECIAL

FUNCTION

PINS

INTERRUPT

CONTROL

ICRA/B
IERA/B

IVR

IVRM

DUSCC

LOGIC

X2

OSCILLATOR

RECEIVER

A/B

RCVR CLK

MUX

RPRA/B
RTRA/B
S1RA/B
S2RA/B

RCVR

SHIFT REG
RECEIVER

4 DEEP

FIFO
CRC

ACCUM
BISYNC

COMPARE

LOGIC

RxD A/B

SD00204

Figure 2. Block Diagram

5

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

PIN DESCRIPTION

MNEMONIC PIN NO. TYPE NAME AND FUNCTION

DIP PLCC

A1–A6 4–2,

D0–D7 31–28,

RDN 22 24 I Read strobe.
WRN 26 28 I Write strobe.
CEN 25 27 I Chip select.
RDYN 7 8 O Ready.
IRQN 6 6 O Interrupt request.
IACKN 1 1 I Interrupt acknowledge.
X1/CLK 43 47 I Crystal 1 or external clock.
X2 42 46 I Crystal 2.
RESETN 23 25 I Master reset.
RxDA, RxDB 37, 12 40, 14 I Channel A (B) receiver serial data.
TxDA, TxDB 36, 13 39, 15 O Channel A (B) transmitter serial data.
RTxCA,

RTxCB
TRxCA,

TRxCB
CTSA/BN,

LCA/BN
DCDA/BN,

SYNIA/BN
RTxDRQA/BN,

GPO1A/BN
TxDRQA/BN,

GPO2A/BN,
RTSA/BN

RTxDAKA/BN,
GPI1A/BN

TxDAKA/BN,
GPI2A/BN

EOPN 27 29 I/O DMA transfer complete.
RTSA/BN,

SYNOUTA/BN
V

CC

GND 24 26 I Signal and power ground.

47–45

21–18

39, 10 43, 11 I/O Channel A (B) receiver/transmitter clock.

40, 9 44, 10 I/O Channel A (B) transmitter/receiver clock.

32, 17 35, 19 I/O Channel A (B) clear-to-send input or loop control output.

38, 11 42, 12 I Channel A (B) data carrier detected or external sync.

34, 15 37, 17 O Channel A (B) receiver/transmitter DMA service request or general purpose output.

33, 16 36, 18 O Channel A (B) transmitter DMA service request, general purpose output or request-to-send.

44, 5 48, 5 I Channel A (B) receiver/transmitter DMA acknowledge or general purpose input 1.

35, 14 38, 16 I Channel A (B) transmitter DMA acknowledge or general purpose input 2.

41, 8 45, 9 O Channel A (B) request-to-send or Sync detect.

48 52 I Power input.

4–2,

51–49

33–30,

23–20

I Address lines.

I/O Bidirectional data bus.

1995 May 01

6

Philips Semiconductors Product specification

SYMBOL

PARAMETER

TEST CONDITIONS

UNIT

5

100

5

IN

V

V

SCN26562Dual universal serial communications controller (DUSCC)

DC ELECTRICAL CHARACTERISTICS

1, 3

T

= 0°C to +70°C, VCC = 5.0V +5%

A

Input low voltage:

V

IL

All except X1/CLK 0.8 V

X1/CLK 0.4 V

Input high voltage:

V

IH

All except X1/CLK 2.0 V

X1/CLK 2.4 V

V

OL

Output low voltage:
All except IRQN IOL = 5.3mA V

IRQN IOL = 8.8mA 0.5 V

V

OH

Output high voltage: 0.5
(Except open drain outputs) IOH = –400µA 2.4 V

I

ILX1

I

IHX1

I

ILX2

I

IHX2

I

IL

I

I

I

OZH

I

OZL

I

ODL

X1/CLK input low current
X1/CLK input high current

X2 input low current
X2 input high current

Input low current
RESETN, TxDAKN, RxDAKN VIN = 0 –40 µA

Input leakage current VIN = 0 to V
Output off current high, 3-State data bus VIN = V

Output off current low , 3-State data bus VIN = 0 –5
Open drain output low current in off

state: EOPN

3

3

3

3

VIN = 0, X2 = GND

VIN = VCC, X2 = GND

VIN = 0, X1 = open

VIN = VCC, X1 = open

CC

CC

VIN = 0

IRQN, RDYN

I

ODH

I

CC

C
C
C

IN
OUT
I/O

Open drain output high current in off
state: EOPN, IRQN, RDYN

=

IN

Power supply current VO = 0 to V
Input capacitance

Output capacitance
Input/output capacitance

2

2

2

VCC = GND = 0 10 pF
VCC = GND = 0 15 pF
VCC = GND = 0 20 pF

CC

CC

NOTES:

1. Parameters are valid over specified temperature range.

2. These values were not explicitly tested; they are guaranteed by design and characterization data.

3. X1/CLK and X2 are not tested with a crystal installed.

LIMITS

Min Typ Max

CC

–5.

–

0.0 mA

1.0 mA
µA

100 µA

–5 5 µA

µA
µA

–25 µA

–120 µA

–5

5 µA

275 mA

V

AC ELECTRICAL CHARACTERISTICS

1, 2, 3, 4

T

= 0°C to +70°C, VCC = 5V +5%

A

LIMITS

SYMBOL PARAMETER

SCN26562C4 SCN26562C2

Min Max Min Max

t

RELREH

RESETN low to RESETN high 1.2 1.2 µs

NOTES:

1. Parameters are valid over specified temperature range.

2. All voltage measurements are referenced to ground (GND). For testing, all inputs except X1/CLK swing between 0.8V and 2.0V with a
transition time of 20ns maximum. For X1/CLK, this swing is between 0.4V and 2.4V . All time measurements are referenced at input voltages
of 0.4V and 2.4V and output voltages of 1.2V and 2.0V , as appropriate.

3. See Figure 17 for test conditions for outputs.

4. Tests for open drain outputs are intended to guarantee switching of the output transistor. Measurement of this response is referenced from
midpoint of the switching signal to a point 0.2V above the actual output signal level. This point represents noise margin that assures true
switching has occurred.

RESETN

t

RELREH

SD00205

Figure 3. Reset Timing

1995 May 01

7

UNIT

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

AC ELECTRICAL CHARACTERISTICS (Continued)

A6–A1

t

ADVRDL

CEN

t

CELRDL

t

RDN

t

RDLDDV

D0–D7

t

RDLRYL

RDYN

NOTES:

1. Wait on Rx. Receiver FIFO empty.

2. Timing is illustrated and referenced to the WRN and RDN inputs. The device may also be operated with CEN as the ‘strobing’ input. CEN and RDN
(also CEN and WRN) are ANDed internally. As a consequence, the signal asserted last initiates the cycle and the signal negated first terminates the
cycle.

RDLRDH

1

t

RDHCEH

t

RDLADI

t

RYZDDV

t

RDHDDF

t

RDHDDI

t

RDHRDL

Figure 4. Read Cycle

t

CEHCEL

SD00206

LIMITS

SYMBOL PARAMETER SCN26562C4 SCN26562C2 UNIT

Min Max Min Max

t

ADVRDL

t

CELRDL

t

RDLADI

t

RDLRYL

t

RDLDDV

t

RDLRDH

t

RYZDDV

t

RDHCEH

t

CEHCEL

t

RDHDDI

t

RDHRDL

t

RDHDDF

Address valid to RDN low 10 10 ns
CEN low to RDN low 0 0 ns
RDN low to address invalid 150 150 ns
RDN low to RDYN low 275 275 ns
RDN low to read data valid 280 300 ns
RDN low to RDN high 300 310 ns
RDYN high impedance to read data valid 100 100 ns
RDN high to CEN high 0 0 ns
CEN high to CEN low 160 170 ns
RDN high to read data invalid 10 10 ns
RDN high to RDN low 160 170 ns
RDN high to data bus floating 75 75 ns

1995 May 01

8

Philips Semiconductors Product specification

275

275

SCN26562Dual universal serial communications controller (DUSCC)

AC ELECTRICAL CHARACTERISTICS (Continued)

A6–A1

t

ADVWRL

CEN

t

CELWRL

t

WRN

D0–D7

t

RDYN

NOTES:

1. Wait on Tx. Transmitter FIFO full.

2. Timing is illustrated and referenced to the WRN and RDN inputs. The device may also be operated with CEN as the ‘strobing’ input. CEN and RDN
(also CEN and WRN) are ANDed internally. As a consequence, the signal asserted last initiates the cycle and the signal negated first terminates the
cycle.

WRLRYL

WRLWRH

1

t

WRLADI

t

WDVWRH

t

WRHCEH

t

WRHWDI

t

WRHWRL

Figure 5. Write Cycle

t

CEHCEL

SD00207

SYMBOL PARAMETER

t

ADVWRL

t

CELWRL

t

WRLRYL

t

WRHCEH

t

WRLWRH

t

WDVWRH

t

CEHCEL

t

WRLADI

t

WRHWRL

t

WRHWDI

Address valid to WRN low 10 10 ns
CEN low to WRN low 0 0 ns
WRN low to READY low ns
WRN high to CEN high 0 0 ns
WRN low to WRN high 300 310 ns
Write data valid to WRN high 100
CEN high to CEN low 160
WRN low to address invalid 150 150 ns
WRN high to WRN low 160 170 ns
WRN high to write data invalid 10 10 ns

LIMITS

SCN26562C4 SCN26562C2

Min Max Min Max

100
170

UNIT

ns
ns

1995 May 01

9

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

AC ELECTRICAL CHARACTERISTICS (Continued)

IRQN

IACKN

t

IALDDV

D7–D0

NOTES:

A

ICR[5:4] = 01 or 10 (mode 1 or mode 2)

Call instruction (mode 2)

B

ICR[5:4] = 11 (mode 3)

C

INTERRUPT REQUEST LOCKED

VECTOR SETTLING

B

Figure 6. Interrupt Acknowledge Cycle

SYMBOL P ARAMETER

t

IALDDV

t

IAHDDF

t

IAHDDI

IACKN low to data bus valid 280 280 ns
IACKN high to data bus floating 150 150 ns
IACKN high to data bus invalid 10 10 ns

t

IAHDDI

VECTOR
LOCKED

A

A

A

C

t

IAHDDF

C

LIMITS

SCN26562C4 SCN26562C2

Min Max Min Max

SERVICE

ROUTINE

Cleared
through

software

SD00208

UNIT

CEN

WRN

GPO1_N
AND/OR
GPO2_N

SYMBOL PARAMETER

t

WRHGOV

WRN high to GPO output data valid 300 300 ns

t

WRHGOV

OLD DATA NEW DATA

Figure 7. Output Port Timing

LIMITS

SCN26562C4 SCN26562C2

Min Max Min Max

SD00209

UNIT

1995 May 01

10

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

AC ELECTRICAL CHARACTERISTICS (Continued)

CEN

RDN

t

GIVRDL

GPI1N

AND/OR

GPI2N

SYMBOL PARAMETER

t

GIVRDL

t

RDLGII

GPI input valid to RDN low 20 20 ns
RDN low to GPI input invalid 100 100 ns

Figure 8. Input Port Timing

t

RDLGII

SD00210

LIMITS

SCN26562C4 SCN26562C2

Min Max Min Max

UNIT

X1/CLK
CTCLK

RxC

TxC

SYMBOL PARAMETER

t

CLHCLL

t

CLLCLH

t

CCHCCL

t

CCLCCH

t

RCHRCL

t

RCLRCH

t

TCHTCL

t

TCLTCH

f

CL

f

CC

f

RC

f

TC

X1/CLK high to low time 25 25 ns
X1/CLK low to high time 25 25 ns
C/T CLK high to low time 100 100 ns
C/T CLK low to high time 100 100 ns
RxC high to low time 110 150 ns
RxC low to high time 110 150 ns
TxC high to low time 110 150 ns
TxC low to high time 110 150 ns
X1/CLK frequency 2.0 14.7456 16.0 2.0 14.7456 16.0 MHz
C/T CLK frequency 0 4.0 0 4.0 MHz
RxC frequency (16X or 1X) 0 4.0 0 2.5 MHz
TxC frequency (16X or 1X) 0 4.0 0 2.5 MHz

t

CLHCLL

t

CCHCCL

t

RCHRCL

t

TCHTCL

t

CLLCLH

t

CCLCCH

t

RCLRCH

t

TCLTCH

SD00211

Figure 9. Clock

LIMITS

SCN26562C4 SCN26562C2

Min Typ Max Min Typ Max

UNIT

1995 May 01

11

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

AC ELECTRICAL CHARACTERISTICS (Continued)

1 BIT TIME

(1 OR 16 CLOCKS)

TxC

(INPUT)

t

CILTXV

TxD

t

TxC

(1X OUTPUT)

SYMBOL PARAMETER

t

CILTXV

TxC input low (1X) to TxD output 240 240 ns
TxC input low (16X) to TxD output 435 435 ns

t

COLTXV

TxC output low to TxD output 50 50 ns

Figure 10. Transmit Timing

COLTXV

SD00212

LIMITS

SCN26562C4 SCN26562C2

Min Max Min Max

UNIT

SYMBOL PARAMETER

t

RXVRCH

RxD data valid to RxC high:

For NRZ data 50 50 ns
For NRZI, Manchester, FM0, FM1 data 120 130 ns

t

RCHRXI

RxC high to RxD data invalid:

For NRZ data 50 50 ns
For NRZI, Manchester, FM0, FM1 data 10 10 ns

t

SILRCH

t

RCHSIH

t

RCHSOL

SYNIN low to RxC high 100 100 ns
RxC high to SYNIN high 50 50 ns
RxC high to SYNOUT low 300 300 ns

SYNOUTN

SYNIN

RXC (1X)

INPUT

RxD

t

SILRCH

t

RXVRCH

t

RCHSIH

Figure 11. Receive T iming

SCN26562C4 SCN26562C2

Min Max Min Max

t

RCHSOL

t

RCHRXI

SD00213

LIMITS

UNIT

1995 May 01

12

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

AC ELECTRICAL CHARACTERISTICS (Continued)

t

WRHEOZ

EOPN

(OUTPUT)

RTxDRQN OR

TxDRQN

CEN

WRN

D7–D0

t

WRLEOL

t

WRLTRH

A

EOPN

(INPUT)

A The TxFIFO is addressed during this write cycle.

Figure 12. Transmit Dual Address DMA T iming

SYMBOL PARAMETER

t

WRLTRH

t

WRLEOL

t

WRHEOZ

t

EILWRH

t

WRHEIH

WRN low to Tx DMA REQN high ns
WRN low to EOPN output low 320 320 ns
WRN high to EOPN output high impedance 225 225 ns
EOPN input low to WRN high 50 225 50 225 ns
WRN high to EOPN input high 50 50 ns

t

EILWRH

LIMITS

SCN26562C4 SCN26562C2

Min Max Min Max

t

WRHEIH

SD00214

UNIT

1995 May 01

13

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

AC ELECTRICAL CHARACTERISTICS (Continued)

RTxDRQN

t

RDLRRH

CEN

RDN

D7–D0

EOPN

(OUTPUT)

A The RxFIFO is addressed during this read cycle.

Figure 13. Receive Dual Address DMA Timing

SYMBOL PARAMETER

t

RDLRRH

t

RDLEOL

t

RDHEOZ

RDN low to Rx DMA REQN high 320 320 ns
RDN low to EOPN output low 300 300 ns
RDN high to EOPN output high impedance 225 225 ns

A

t

RDLEOL

t

LIMITS

SCN26562C4 SCN26562C2

Min Max Min Max

RDHEOZ

SD00215

UNIT

1995 May 01

14

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

AC ELECTRICAL CHARACTERISTICS (Continued)

TxRQN

t

TAHTAL

TxDAKN

t

TALTAH

WRN

MEMRN

EOPN

(INPUT)

D7–D0

EOPN

(OUTPUT)

NOTES:

A

Ignored by the DUSCC since CEN is not asserted, but it can be used externally to qualify TxDAKN.

Memory read signal; not seen by DUSCC.

B

A

B

t

WDVTAH

t

TAHWDI

Figure 14. DMA-Transmit Single Address Mode

t

TALTRH

t

TALEOL

t

EILTAH

t

TAHEIH

t

TAHEOF

SD00216

SYMBOL PARAMETER

t

TAHTAL

t

TALTAH

t

TALTRH

t

WDVTAH

t

TAHWDI

t

TALEOL

t

TAHEOF

t

EILTAH

t

TAHEIH

Transmit DMA ACKN high to low time 100 100 ns
Transmit DMA ACKN low to high time 250 250 ns
Tx DMA ACKN low to Tx DMA REQN high ns
Write data valid to Tx DMA ACKN high 90 250 90 250 ns
Tx DMA ACKN high to write data invalid 30 30 ns
Tx DMA ACKN low to EOPN output low ns
Tx DMA ACKN high to EOPN output float 170 170 ns
EOPN input low to Tx DMA ACKN high 50 200 50 200 ns
Tx DMA ACKN high to EOPN input high 50 50 ns

1995 May 01

15

LIMITS

SCN26562C4 SCN26562C2

Min Max Min Max

UNIT

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

AC ELECTRICAL CHARACTERISTICS (Continued)

RxDRQN

RxDAKN

t

RALRAH

RDN

MEMWN

EOPN

(OUTPUT)

t

RALDDV

D7–D0

NOTES:

A

Ignored by the DUSCC bit; it can be used to qualify RxDAKN.

Memory read signal; not seen by DUSCC.

B

A

B

Figure 15. DMA-Receive Single Address Mode

t

RAHRAL

t

RAHDDI

t

RAHDDF

t

RALRRH

t

RALEOL

t

RAHEOF

SD00217

SYMBOL P ARAMETER

t

RAHRAL

t

RALRAH

t

RALRRH

t

RALEOL

t

RAHEOF

t

RALDDV

t

RAHDDI

t

RAHDDF

Receive DMA ACKN high to low time 160 160 ns
Receive DMA ACKN low to high time 250 250 ns
Rx DMA ACKN low to Rx DMA REQN high 320 320 ns
Rx DMA ACKN low to EOPN output low 200 200 ns
Rx DMA ACKN high to EOPN output float 225 225 ns
Rx DMA ACKN low to read data valid 225 225 ns
Rx DMA ACKN high to read data invalid 10 10 ns
Rx DMA ACKN high to data bus float 125 125 ns

LIMITS

SCN26562C4 SCN26562C2

Min Max Min Max

UNIT

1995 May 01

16

Philips Semiconductors Product specification

t

RWHIRH

SCN26562Dual universal serial communications controller (DUSCC)

AC ELECTRICAL CHARACTERISTICS (Continued)

RDN/WRN

IRQN

SYMBOL PARAMETER

RDN/WRN high to IRQN high for:

Read RxFIFO (RxRDY interrupt) 450 450 ns
Write TxFIFO (TxRDY interrupt) 450 450 ns
Write RSR (Rx condition interrupt) 400 400 ns
Write TRSR (Rx/Tx interrupt) 400 400 ns
Write ICTSR (counter/timer interrupt) 400 400 ns

X1/CLK

WRN

t

RWHIRH

Figure 16. Interrupt Timing

SCN26562C4 SCN26562C2

Min Max Min Max

V

M

VOL +0.2V

V

OL

SD00218

LIMITS

UNIT

COMMAND

RxC

RxD

LCN

a. Loop Control Output Assertion

RxC

RxD

LCN

b. Loop Control Output Negation

VALID

SD00219

Figure 17. Command Timing

12345678

12345678

Figure 18. Relationship Between Received Data and the Loop Control Output

9

SD00220

1995 May 01

17

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

IRQN

50pF

RDYN

150pF

EOPN

50pF

ALL OTHER

OUTPUTS

150pF

NOTE:

All CL includes 50pF stray capacitance,
i.e., CL = 150pF = 100pF discrete +50pF stray.

Figure 19. Test Conditions for Outputs

2.7K

820Ω

1K

V

DD

+5.0V

V

DD

710

+5.0V

SD00221

1995 May 01

18

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

DIP48: plastic dual in-line package; 48 leads (600 mil) SOT240-1

1995 May 01

19

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

PLCC52: plastic leaded chip carrier; 52 leads; pedestal SOT238-3

1995 May 01

20

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

NOTES

1995 May 01

21

Philips Semiconductors Product specification

SCN26562Dual universal serial communications controller (DUSCC)

Data sheet status

Data sheet
status

Objective
specification

Preliminary
specification

Product
specification

Product
status

Development

Qualification

Production

Definition

This data sheet contains the design target or goal specifications for product development.
Specification may change in any manner without notice.

This data sheet contains preliminary data, and supplementary data will be published at a later date.
Philips Semiconductors reserves the right to make chages at any time without notice in order to
improve design and supply the best possible product.

This data sheet contains final specifications. Philips Semiconductors reserves the right to make
changes at any time without notice in order to improve design and supply the best possible product.

[1]

[1] Please consult the most recently issued datasheet before initiating or completing a design.

Definitions

Short-form specification — The data in a short-form specification is extracted from a full data sheet with the same type number and title. For

detailed information see the relevant data sheet or data handbook.
Limiting values definition — Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one

or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or
at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended
periods may affect device reliability.

Application information — Applications that are described herein for any of these products are for illustrative purposes only. Philips
Semiconductors make no representation or warranty that such applications will be suitable for the specified use without further testing or
modification.

Disclaimers

Life support — These products are not designed for use in life support appliances, devices or systems where malfunction of these products can

reasonably be expected to result in personal injury . Philips Semiconductors customers using or selling these products for use in such applications
do so at their own risk and agree to fully indemnify Philips Semiconductors for any damages resulting from such application.

Right to make changes — Philips Semiconductors reserves the right to make changes, without notice, in the products, including circuits, standard
cells, and/or software, described or contained herein in order to improve design and/or performance. Philips Semiconductors assumes no
responsibility or liability for the use of any of these products, conveys no license or title under any patent, copyright, or mask work right to these
products, and makes no representations or warranties that these products are free from patent, copyright, or mask work right infringement, unless
otherwise specified.

Philips Semiconductors
811 East Arques Avenue
P.O. Box 3409
Sunnyvale, California 94088–3409
Telephone 800-234-7381

 Copyright Philips Electronics North America Corporation 1998

All rights reserved. Printed in U.S.A.

print code Date of release: 08-98
Document order number:

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1995 May 01

22