Philips PCA3352C, PCA3353C, PCD3351A, PCD3352A, PCD3353A Technical data

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INTEGRATED CIRCUITS
DATA SH EET
PCA3351C; 52C; 53C; PCD3351A; 52A; 53A
Product specification Supersedes data of 1996 Dec 18 File under Integrated Circuits, IC03
1999 Oct 28
Philips Semiconductors Product specification
8-bit microcontrollers with DTMF generator and 128 bytes EEPROM
CONTENTS
1 FEATURES 2 GENERAL DESCRIPTION 3 ORDERING INFORMATION 4 BLOCK DIAGRAM 5 PINNING INFORMATION
5.1 Pinning
5.2 Pin description 6 FREQUENCY GENERATOR
6.1 Frequency generator derivative registers
6.2 Melody output (P1.7/MDY)
6.3 Frequency registers
6.4 DTMF frequencies
6.5 Modem frequencies
6.6 Musical scale frequencies 7 EEPROM AND TIMER 2 ORGANIZATION
7.1 EEPROM registers
7.2 EEPROM latches
7.3 EEPROM flags
7.4 EEPROM macros
7.5 EEPROM access
7.6 Timer 2 8 DERIVATIVE INTERRUPTS
9 TIMING 10 RESET 11 IDLE MODE 12 STOP MODE 13 INSTRUCTION SET RESTRICTIONS 14 OVERVIEW OF PORT AND
15 SUMMARY OF DERIVATIVE REGISTERS 16 HANDLING 17 LIMITING VALUES 18 DC CHARACTERISTICS 19 AC CHARACTERISTICS 20 PACKAGE OUTLINES 21 SOLDERING
21.1 Reflow soldering
21.2 Wave soldering
21.3 DIP
21.4 Repairing soldered joints 22 DEFINITIONS 23 LIFE SUPPORT APPLICATIONS
PCA3351C; 52C; 53C;
PCD3351A; 52A; 53A
POWER-ON-RESET CONFIGURATIONS
1999 Oct 28 2
Philips Semiconductors Product specification
8-bit microcontrollers with DTMF generator and 128 bytes EEPROM
1 FEATURES
8-bit CPU, ROM, RAM, EEPROM and I/O; all in one (28-lead or 32-lead) package
ROM: – 2 kbytes (PCA3351C and PCD3351A) – 4 kbytes (PCA3352C and PCD3352A) – 6 kbytes (PCA3353C and PCD3353A)
RAM: – 64 bytes (PCA3351C and PCD3351A) – 128 bytes (PCA3352C, PCD3352A, PCA3353C and
PCD3353A)
128 bytes Electrically Erasable Programmable Read-Only Memory (EEPROM)
Over 100 instructions (based on MAB8048) all of 1 or 2 cycles
20 quasi-bidirectional I/O port lines
8-bit programmable Timer/event counter 1
8-bit reloadable Timer 2
Three single-level vectored interrupts:
– external – 8-bit programmable Timer/event counter 1 – derivative; triggered by reloadable Timer 2
Twotestinputs,oneofwhichalsoservesastheexternal interrupt input
DTMF, modem, musical tone generator
Reference for supply and temperature-independent
tone output
Filtering for low output distortion (CEPT compatible)
Melody output for ringer application
Power-on-reset
Stop and Idle modes
Supply voltage: 1.8 to 6 V (DTMF tone output and
EEPROM erase/write from 2.5 V)
Clock frequency: 1 to 16 MHz (3.58 MHz for DTMF suggested)
Operating ambient temperature: 25 to +70 °C or 0to50°C
Manufactured in silicon gate CMOS process.
PCA3351C; 52C; 53C;
PCD3351A; 52A; 53A
2 GENERAL DESCRIPTION
This data sheet details the specific properties of the devices referred to. The shared properties of the PCD33xxA family of microcontrollers are described in the
“PCD33xxA family”
conjunction with this publication.
‘PCA3351C; 52C; 53C’ denotes the types PCA3351C, PCA3352C and PCA3353C. Unless specified, these types will hereafter be referred to collectively as ‘PCA335xC’.
‘PCD3351A; 52A; 53A’ denotes the types PCD3351A, PCD3352A, PCD3353A. Unless specified, these types will hereafter be referred to collectively as ‘PCD335xA’.
The PCA335xC and PCD335xA are microcontrollers designed primarily for telephony applications. They include an on-chip generator for dual tone multifrequency (DTMF), modem and musical tones. In addition to dialling, generated frequencies can be made available as square waves for melody generation, providing ringer operation.
The PCA335xC and PCD335xA also incorporate 128 bytes of EEPROM, permitting data storage without battery backup. The EEPROM can be used for storing telephone numbers, particularly for implementing redial functions.
The PCA335xC and PCD335xA can be emulated with the OTP microcontrollers PCD3755A and PCD3755E. See Chapter 14, Table 25.
The instruction set is similar to that of the MAB8048 and is a sub-set of that listed in the sheet.
The differences between PCA335xC and PCD335xA are shown in Table 1.
Table 1 Differences: PCA335xC and PCD335xA
TYPE V
PCA335xC fixed at 2.0 V ±0.3 V 0 to 50 °C PCD335xA (1.2 to 3.6 V) ±0.5 V
Note
1. See Chapter 14, Table 26.
data sheet, which should be read in
“PCD33xxA family”
POR
(1)
data
AMBIENT
TEMP. RANGE
25 to +70 °C
1999 Oct 28 3
Philips Semiconductors Product specification
8-bit microcontrollers with DTMF generator and 128 bytes EEPROM
3 ORDERING INFORMATION
TYPE
NUMBER
PCA335xCP DIP28 plastic dual in-line package; 28 leads (600 mil) SOT117-1 PCD335xAP PCA335xCT SO28 plastic small outline package; 28 leads; body width 7.5 mm SOT136-1 PCD335xAT PCA335xCH LQFP32 plastic low profile quad flat package; 32 leads; body 7 × 7 × 1.4 mm SOT358-1 PCD335xAH
Note
1. The types: a) PCA335xC denotes: PCA3351C, PCA3352C or PCA3353C. b) PCD335xA denotes: PCD3351A, PCD3352A or PCD3353A.
(1)
NAME DESCRIPTION VERSION
PACKAGE
PCA3351C; 52C; 53C;
PCD3351A; 52A; 53A
1999 Oct 28 4
Philips Semiconductors Product specification
8-bit microcontrollers with DTMF generator and 128 bytes EEPROM
4 BLOCK DIAGRAM
8
PORT 0
P0.0 to P0.7
2 kbytes
RESIDENT ROM
P1.7/MDY P1.0 to P1.6
BUFFER
6 kbytes
4 kbytes
(PCD3353C; 53A)
(PCD3352C; 52A)
(PCD3351C; 51A)
PORT 1
BUFFER
PORT 0
FLIP-FLOP
PORT 1
FLIP-FLOP
DECODE
INTERNAL
BANK
MEMORY
FLIP-FLOPS
FREQ.
CLOCK
30
WORD
STATUS
PROGRAM
LOWER
COUNTER
PROGRAM
5888 8
HIGHER
COUNTER
PROGRAM
PCD3351A
PCD3352A
PCD3353A
PCA3351C
PCA3352C
PCA3353C
8
8
EVENT
TIMER/
COUNTER
32
T1
8
8
88
88
8
REGISTER 0
REGISTER 1
REGISTER 2
MULTIPLEXER
RAM
ADDRESS
REGISTER 1
TEMPORARY
ACCUMULATOR
REGISTER 3
REGISTER 4
REGISTER 5
REGISTER
REGISTER
INSTRUCTION
ARITHMETIC
timer interrupt
REGISTER 6
REGISTER 7
8 LEVEL STACK
DECOD
AND
DECODER
REGISTER 2
TEMPORARY
external interrupt
PCA3351C; 52C; 53C;
PCD3351A; 52A; 53A
MLA537
64 bytes
DATA STORE
REGISTER BANK
OPTIONAL SECOND
(VARIABLE LENGTH)
E
FLAG
T1
CE/T0
TIMER
CONDITIONAL
ADJUST
DECIMAL
LOGIC UNIT
BRANCH
128 bytes
(PCD3351C; 51A)
RESIDENT RAM ARRAY
TEST
ACC BIT
ACC
CARRY
LOGIC
XTAL2XTAL1RESET
CONTROL AND TIMING
CE/T0
IDLE
STOP
(PCD3352C; 52A; 53C; 53A)
OSCILLATOR
INTERRUPT INITIALIZE
handbook, full pagewidth
Fig.1 Block diagram.
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1999 Oct 28 5
TONE
4 7
P2.0 to P2.3
FILTER
PORT 2
BUFFER
PORT 2
FLIP-FLOP
SINE WAVE
GENERATOR
MELODY
CONTROL
REGISTER
LGF
REGISTER
HGF
REGISTER
8
8
8
8
8
8
LOGIC
INTERRUPT
DATA
EEPROM
TRANSFER
EEPROM
ADDRESS
REGISTER
EEPROM
CONTROL
REGISTER
TIMER 2
REGISTER
TIMER 2
RELOAD
REGISTER
interrupt
derivative
EEPROM
POR
V
POWER-ON-RESET
RESET
8
8
8
4
Philips Semiconductors Product specification
8-bit microcontrollers with DTMF generator and 128 bytes EEPROM
5 PINNING INFORMATION
5.1 Pinning
handbook, halfpage
(1) PCA335xC denotes:
PCA3351C, PCA3352C or PCA3353C.
PCD335xA denotes: PCD3351A, PCD3352A or PCD3353A.
P0.1 P0.2 P0.3 P0.4 P0.5 P0.6 P0.7
T1 XTAL1 XTAL2
RESET
CE/T0
P1.0 P1.1
1 2 3 4 5 6
PCA335xC
7
PCD335xA
8
9 10 11 12 13
(1)
MLA538
28 27 26 25 24 23 22 21 20 19 18 17 16 1514
P0.0 P2.3 P2.2 P2.1
V
DD TONE V
SS P2.0
P1.7/MDY P1.6 P1.5 P1.4 P1.3 P1.2
PCA3351C; 52C; 53C;
PCD3351A; 52A; 53A
handbook, full pagewidth
(1) PCA335xCH denotes:
PCA3351CH, PCA3352CH or PCA3353CH.
PCD335xAH denotes: PCD3351AH, PCD3352AH or PCD3353AH.
Fig.2 Pin configuration for DIP28 (SOT117-1) and SO28 (SOT136-1).
P2.2
P2.3
P0.0
n.c.
P0.1
P0.2
P0.3
P0.4
31
n.c. P0.5 P0.6 P0.7
T1 XTAL1 XTAL2
RESET
32
1 2 3 4 5 6 7 8
9
CE/T0
30
PCA335xCH PCD335xAH
11
10
P1.0
P1.1
29
(1)
12
P1.2
28
13 n.c.
27
14
P1.3
26
15
P1.4
25
16
P1.5
24 23 22 21 20 19 18 17
MGB795
P2.1 V
DD TONE V
SS P2.0
P1.7/MDY P1.6 n.c.
Fig.3 Pin configuration for LQFP32 (SOT358-1).
1999 Oct 28 6
Philips Semiconductors Product specification
8-bit microcontrollers with DTMF generator and 128 bytes EEPROM
5.2 Pin description Table 2 SOT117-1 and SOT136-1 packages (for information on parallel I/O ports, see Chapter 14)
SYMBOL PIN TYPE DESCRIPTION
P0.1 to P0.7 1 to 7 I/O 7 bits of Port 0: 8-bit quasi-bidirectional I/O port T1 8 I Test 1 or count input of 8-bit Timer/event counter 1 XTAL1 9 I crystal oscillator or external clock input XTAL2 10 O crystal oscillator output RESET 11 I reset input CE/
T0 12 I Chip Enable or Test 0 P1.0 to P1.6 13 to 19 I/O 7 bits of Port 1: 8-bit quasi-bidirectional I/O port P1.7/MDY 20 I/O 1 bit of Port 1: 8-bit quasi-bidirectional I/O port; or melody output P2.0 21 I/O 1 bit of Port 2: 4-bit quasi-bidirectional I/O port V
SS
TONE 23 O DTMF output V
DD
P2.1 to P2.3 25 to 27 I/O 3 bits of Port 2: 4-bit quasi-bidirectional I/O port P0.0 28 I/O 1 bit of Port 0: 8-bit quasi-bidirectional I/O port
22 P ground
24 P positive supply voltage
PCA3351C; 52C; 53C;
PCD3351A; 52A; 53A
Table 3 SOT358-1 package (for information on parallel I/O ports, see Chapter 14)
SYMBOL PIN TYPE DESCRIPTION
n.c. 1 not connected P0.5 to P0.7 2 to 4 I/O 3 bits of Port 0: 8-bit quasi-bidirectional I/O port T1 5 I Test 1 or count input of 8-bit Timer/event counter 1 XTAL1 6 I crystal oscillator or external clock input XTAL2 7 O crystal oscillator output RESET 8 I reset input CE/
T0 9 I Chip Enable or Test 0 P1.0 to P1.2 10 to 12 I/O 3 bits of Port 1: 8-bit quasi-bidirectional I/O port n.c. 13 not connected P1.3 to P1.5 14 to 16 I/O 3 bits of Port 1: 8-bit quasi-bidirectional I/O port n.c. 17 not connected P1.6 18 I/O 1 bit of Port 1: 8-bit quasi-bidirectional I/O port P1.7/MDY 19 I/O 1 bit of Port 1: 8-bit quasi-bidirectional I/O port; or melody output P2.0 20 I/O 1 bit of Port 2: 4-bit quasi-bidirectional I/O port V
SS
TONE 22 O DTMF output V
DD
P2.1 to P2.3 24 to 26 I/O 3 bits of Port 2: 4-bit quasi-bidirectional I/O port P0.0 27 I/O 1 bit of Port 0: 8-bit quasi-bidirectional I/O port n.c. 28 not connected P0.1 to P0.4 29 to 32 I/O 4 bits of Port 0: 8-bit quasi-bidirectional I/O port
21 P ground
23 P positive supply voltage
1999 Oct 28 7
Philips Semiconductors Product specification
8-bit microcontrollers with DTMF generator and 128 bytes EEPROM
6 FREQUENCY GENERATOR
A versatile frequency generator section is provided (see Fig.4). For normal operation, use a 3.58 MHz quartz crystal or PXE resonator. The frequency generator includes precision circuitry for dual tone multifrequency (DTMF) signals, which is typically used for tone dialling telephone sets.
Theirfrequenciesareprovidedinpurely sinusoidal form on the TONE output or as square waves on the port line P1.7/MDY.
6.1 Frequency generator derivative registers
6.1.1 HIGH AND LOW GROUP FREQUENCY REGISTERS Table 4 gives the addresses, symbols and access types of the High Group Frequency (HGF) and Low Group Frequency
(LGF) registers.
Table 4 Hexadecimal addresses, symbols, access types and bit symbols of the frequency registers
REGISTER
ADDRESS
11H HGF W H7H6H5H4H3H2H1H0 12H LGF W L7L6L5L4L3L2L1L0
REGISTER
SYMBOL
ACCESS
TYPE
7 6 5 4 3 2 1 0
The TONE output can alternatively issue twelve modem frequencies for data rates between 300 and 1200 bits/s.
In addition to DTMF and modem frequencies, two octaves of musical scale in steps of semitones are available.
When no tones are generated the TONE output is in 3-state mode.
BIT SYMBOLS
PCA3351C; 52C; 53C;
PCD3351A; 52A; 53A
6.1.2 MELODY CONTROL REGISTER (MDYCON)
Table 5 Melody Control Register, MDYCON (address 13H; access type R/W)
7 6 5 4 3 2 1 0
0000000EMO
Table 6 Description of MDYCON bits
BIT SYMBOL DESCRIPTION
7to1 These bits are set to a logic 0.
0 EMO Enable Melody Output. If bit EMO = 0, then P1.7/MDY is a standard port line.
If bit EMO = 1, then P1.7/MDY is the melody output. EMO = 1 does not inhibit the port instructions for P1.7/MDY. Therefore the state of both port line and flip-flop may be read in and the port flip-flop may be written by port instructions. However, the port flip-flop of P1.7/MDY must remain set to avoid conflicts between melody and port outputs. When the HGF contents are zero while EMO = 1, P1.7/MDY is in the HIGH state.
1999 Oct 28 8
Philips Semiconductors Product specification
8-bit microcontrollers with DTMF generator and 128 bytes EEPROM
handbook, full pagewidth
8
8
8
INTERNAL BUS
8
MELODY CONTROL
REGISTER
HGF REGISTER
LGF REGISTER
DIGITAL
SINE WAVE
SYNTHESIZER
SWITCHED
CAPACITOR
BANDGAP
VOLTAGE
REFERENCE
DIGITAL
SINE WAVE
SYNTHESIZER
square wave
DAC
DAC
SWITCHED
CAPACITOR
LOW-PASS
FILTER
PCA3351C; 52C; 53C;
PCD3351A; 52A; 53A
PORT/MELODY
OUTPUT LOGIC
RC LOW-PASS
FILTER
MLC416
P1.7/ MDY
TONE
Fig.4 Block diagram of the frequency generator and melody output (P1.7/MDY) section.
1999 Oct 28 9
Philips Semiconductors Product specification
8-bit microcontrollers with DTMF generator and 128 bytes EEPROM
6.2 Melody output (P1.7/MDY)
The melody output (P1.7/MDY) is very useful for generating musical notes when a purely sinusoidal signal is not required, such as for ringer applications.
The square wave (duty cycle =12⁄23 or 52%) will include the attenuated harmonics of the base frequency, which is defined by the contents of the HGF register (Table 4). However, even higher frequency notes may be produced since the low-pass filtering on the TONE output is not applied to the P1.7/MDY output. This results in the minimum decimal value x in the HGF register (see equation in Section 6.3) being 2 for the P1.7/MDY output, rather than 60 for the TONE output. A sinusoidal TONE output is produced at the same time as the melody square wave, but due to the filtering, the higher frequency sine waves with x < 60 will not appear at the TONE output.
Since the melody output is shared with P1.7, the port flip-flop of P1.7 has to be set HIGH before using the melodyoutput.Thistoavoidconflictsbetween melody and port outputs. The melody output drive depends on the configuration of port P1.7/MDY, see Chapter 14, Table 26.
6.3 Frequency registers
PCA3351C; 52C; 53C;
PCD3351A; 52A; 53A
6.4 DTMF frequencies
Assuming an oscillator frequency f DTMF standard frequencies can be implemented as shown in Table 7.
The relationships between telephone keyboard symbols, DTMFfrequencypairsandthefrequencyregistercontents are given in Table 8.
Table 7 DTMF standard frequencies and their
implementation; value = LGF, HGF contents
VALUE
(HEX)
DD 697 697.90 0.13 0.90
C8 770 770.46 0.06 0.46 B5 852 850.45 0.18 1.55 A3 941 943.23 0.24 2.23 7F 1209 1206.45 0.21 2.55
72 1336 1341.66 0.42 5.66 67 1477 1482.21 0.35 5.21
5D 1633 1638.24 0.32 5.24
FREQUENCY (Hz) DEVIATION
STANDARD GENERATED (%) (Hz)
= 3.58 MHz, the
xtal
The two frequency registers HGF and LGF define two frequencies. From these, the digital sine synthesizers together with the Digital-to-Analog Converters (DACs) construct two sine waves. Their amplitudes are precisely scaled according to the bandgap voltage reference. This ensures tone output levels independent of supply voltage and temperature.
The amplitude of the Low Group Frequency sine wave is attenuated by 2 dB compared to the amplitude of the High Group Frequency sine wave.
The two sine waves are summed and then filtered by an on-chip switched capacitor and RC low-pass filters. These guarantee that all DTMF tones generated fulfil the CEPT recommendations with respect to amplitude, frequency deviation, total harmonic distortion and suppression of unwanted frequency components.
The value 00H in a frequency register stops the corresponding digital sine synthesizer. If both frequency registers contain 00H, the whole frequency generator is shut off, resulting in lower power consumption.
Thefrequencyofthesine wave generated from eitherHGF or LGF is a function of the decimal value ‘x’ held in the register. The variables are related by the equation:
f
xtal
f
=
----------------------------­23 x 2+()[]
; where 60 x 255 for TONE output.
Table 8 Dialling symbols, corresponding DTMF
frequency pairs and frequency register contents
TELEPHONE
KEYBOARD
SYMBOLS
0 (941, 1336) A3 72 1 (697, 1209) DD 7F 2 (697, 1336) DD 72 3 (697, 1477) DD 67 4 (770, 1209) C8 7F 5 (770, 1336) C8 72 6 (770, 1477) C8 67 7 (852, 1209) B5 7F 8 (852, 1336) B5 72
9 (852, 1477) B5 67 A (697, 1633) DD 5D B (770, 1633) C8 5D C (852, 1633) B5 5D D (941, 1633) A3 5D
(941, 1209) A3 7F
# (941, 1477) A3 67
DTMF FREQ.
PAIRS
(Hz)
LGF
VALUE
(HEX)
HGF
VALUE
(HEX)
1999 Oct 28 10
Philips Semiconductors Product specification
8-bit microcontrollers with DTMF generator and 128 bytes EEPROM
6.5 Modem frequencies
Again assuming an oscillator frequency f the standard modem frequencies can be implemented as in Table 9. It is suggested to define the frequency by the HGF register while the LGF register contains 00H, disabling Low Group Frequency generation.
Table 9 Standard modem frequencies and their
implementation
HGF
FREQUENCY (Hz) DEVIATION
VALUE
(HEX)
9D 980
82 1180
8F 1070
79 1270 80 1200 45 2200 76 1300 48 2100
5C 1650
52 1850
4B 2025
44 2225
MODEM GENERATED (%) (Hz)
(1)
(1) (2) (2) (3) (3) (4) (4) (1) (1) (2) (2)
978.82 0.12 1.18
1179.03 0.08 0.97
1073.33 0.31 3.33
1265.30 0.37 4.70
1197.17 0.24 2.83
2192.01 0.36 7.99
1296.94 0.24 3.06
2103.14 0.15 3.14
1655.66 0.34 5.66
1852.77 0.15 2.77
2021.20 0.19 3.80
2223.32 0.08 1.68
Notes
1. Standard is V.21.
2. Standard is Bell 103.
3. Standard is Bell 202.
4. Standard is V.23.
6.6 Musical scale frequencies
= 3.58 MHz,
xtal
PCA3351C; 52C; 53C;
PCD3351A; 52A; 53A
Table 10 Musical scale frequencies and their
implementation
HGF
NOTE
VALUE
(HEX)
D#5 F8 622.3 622.5
E5 EA 659.3 659.5 F5 DD 698.5 697.9
F#5 D0 740.0 741.1
G5 C5 784.0 782.1
G#5 B9 830.6 832.3
A5 AF 880.0 879.3
A#5 A5 923.3 931.9
B5 9C 987.8 985.0
C6 93 1046.5 1044.5
C#6 8A 1108.7 1111.7
D6 82 1174.7 1179.0
D#6 7B 1244.5 1245.1
E6 74 1318.5 1318.9 F6 6D 1396.9 1402.1
F#6 67 1480.0 1482.2
G6 61 1568.0 1572.0
G#6 5C 1661.2 1655.7
A6 56 1760.0 1768.5
A#6 51 1864.7 1875.1
B6 4D 1975.5 1970.0
C7 48 2093.0 2103.3
C#7 44 2217.5 2223.3
D7 40 2349.3 2358.1
D#7 3D 2489.0 2470.4
FREQUENCY (Hz)
STANDARD
(1)
GENERATED
Finally, two octaves of musical scale in steps of semitones can be realized, again assuming an oscillator frequency f
= 3.58 MHz (Table 10). It is suggested to define the
xtal
frequency by the HGF register while the LGF contains 00H, disabling Low Group Frequency generation
1999 Oct 28 11
Note
1. Standard scale based on A4 @ 440 Hz.
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