TOSHIBA TMP88CS34N, TMP88CS34F, TMP88CP34N, TMP88CP34F Technical data
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TMP88CS34/CP34
CMOS 8-Bit Microcontroller
TMP88CS34N/F, TMP88CP34N/F
The TMP88CS34/CP34 is the high speed and high performance 8-bit single chip microcomputers. This
MCU contain CPU core, ROM, RAM, input/output ports, four Multi-function timer/counters, serial bus
interface, on-screen display, PWM output, 8-bit AD converter, and remote control signal preprocessor on
chip.
Product No. ROM RAM Package OTP MCU
TMP88CS34N/F 64 K u 8-bit
TMP88CP34N/F 48 K u 8-bit
1.5 K u 8-bit
P-SDIP42-600-1.78
P-QFP44-1414-0.80D
TMP88PS34N/F
Features
ٟ 8-bit single chip microcomputer TLCS-870/X Series
ٟ Instruction execution time: 0.25 Ps (at 16 MHz)
ٟ 842 basic instructions
x Multiplication and Division (8 bits u 8 bits, 16 bits u 8 bits, 16 bits/8 bits)
x Bit manipulations (Set/Clear/Complement/Move/Test/Exclusive or)
x 16-bit data and 20-bit data operations
x 1-byte jump/subroutine-call (Short relative jump/Vector call)
ٟ I/O ports: Maximum 33 (High current output: 4)
ٟ 15 interrupt sources: External 6, Internal 10
x All sources have independent latches each, and nested interrupt control is available.
x Edge-selectable external interrupts with noise reject
x High-speed task switching by register bank changeover
ٟ ROM corrective function
ٟ Two 16-bit timer/counters: TC1, TC2
x Timer, Event-counter, Pulse width measurement, External trigger timer, Window modes
ٟ Two 8-bit timer/counters: TC3, TC4
x Timer, Event counter, Capture (Pulse width/duty measurement) mode
000707EBP1
xFor a discussion of how the reliability of microcontrollers can be predicted, please refer to Section 1.3 of the chapter entitled Qualit
and Reliability Assurance / Handling Precautions.
xTOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general
can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer,
when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid
situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage t
property.
In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the mos
recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the “Handling Guide fo
Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability Handbook” etc..
xThe TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal
equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.). These TOSHIBA products are
neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction o
failure of which may cause loss of human life or bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control
instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments,
medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in this document shall be made
at the customer’s own risk.
xThe products described in this document are subject to the foreign exchange and foreign trade laws.
xThe information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed b
TOSHIBA CORPORATION for any infringements of intellectual property or other rights of the third parties which may result from its
use. No license is granted by implication or otherwise under any intellectual property or other rights of TOSHIBA CORPORATION o
others.
xThe information contained herein is subject to change without notice.
Purchase of TOSHIBA I2C components conveys a license under the Philips I2C Patent Rights to use
these components in an I
S
ecification as defined by Philips.
2
C system, provided that the system conforms to the I2C Standard
88CS34-1
2003-03-25
TMP88CS34CP34
ٟ Time base timer (Interrupt frequency: 0.95 Hz to 31250 Hz)
ٟ Watchdog timer
x Interrupt source/reset output
ٟ Serial bus interface
ٟ On-screen display circuit
ٟ Jitter elimination
ٟ DA conversion (Pulse Width Modulation) outputs
ٟ 8-bit successive approximate type AD converter with sample and hold
ٟ High current output: 1 pin (typ. 20 mA)
ٟ Remote control signal preprocessor
ٟ Two power saving operating modes
2
x I
C bus, 8-bit SIO mode (Selectable two I/O channels)
x Font ROM characters: Mono font 383 characters, color font 96 characters or mono font 447
characters, color font 64 characters
x Characters display: 32 columns u 12 lines
x Composition: 16 u 18 dots
x Size of character: 4 kinds (line by line)
x Color of character: 8 or 27 kinds (character by character)
x Variable display position: Horizontal 256 steps, Vertical 625 steps
x Fringing, Smoothing, Slant, Underline , Blinking function
x 14/12-bit resolution (2 channels)
x 12-bit resolution (2 channels)
x STOP mode: Oscillation stops. Battery/Capacitor back-up. Port output hold/high-impedance.
x IDLE mode: CPU stops, and Peripherals operate using high-frequency clock. Release by
interrupts.
ٟ Operating voltage: 4.5 to 5.5 V at 16 MHz
ٟ Emulation POD: BM88CS34N0A-M15
88CS34-2
2003-03-25
TMP88CS34CP34
Pin Assignments
P-SDIP42-600-1.78
Package
P-QFP44-1414-0.80D
Package
TMP88CS34N
TMP88CP34N
TMP88PS34N
TMP88CS34F
TMP88CP34F
TMP88PS34F
P-SDIP42-600-1.78
/
/INT2/TC1/AIN0) P53
0KWU
VVSS
) P40
0PWM
) P41
1PWM
) P42
2PWM
) P43
3PWM
(
P32
N.C.
VDD
VSS
1SCK
4KWU
(
(
P-QFP44-1414-0.80D
(SDA0) P35
(TC4) P33
(
(
(
(
88CS34-3
VSS
) P40
(
0PWM
(
) P41
1PWM
(
) P42
2PWM
) P43
(
3PWM
P44
P45
P46
P47
) P50
(TC2/
(SO1/SDA1) P52
(
(
(
/Y/BLIN/AIN4) P60
5KWU
0INT
(SI1/SCL1) P51
/AIN1) P54
1KWU
/AIN2) P55
2KWU
/AIN3) P56
3KWU
/BIN/AIN5) P61
(GIN) P62
(RIN) P63
(I) P57
P30 (INT3/RXIN)
P34 (SCL0)
P31 (INT4/TC3)
31
33
32
34
35
36
37
38
39
40
41
42
43
44
3
1
2
P46
P44
P45
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17 26
18
19
20
21
)
STOP
/
INT5
P20 (
XIN
TEST
RESET
XOUT
30
27
29
26
28
4
7
8
5
6
P47
) P50
) P51
NT0
SCL1
(SI1/
(TC2/I
(SO1/SDA1) P52
/INT2/TC1/AIN0) P53
SCK1
/
KWU0
(
OSC2
25
/AIN1) P54
KWU1
(
OSC1
24
/AIN2) P55
KWU2
(
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
25
24
23
22
)
VD
P71 (
23
22
21
20
19
18
17
16
15
14
13
12
11 9 10
/AIN3) P56
KWU3
(
VDD
P33 (TC4)
P32
VVSS
P35 (SDA0)
P34 (SCL0)
P31 (INT4/TC3)
P30 (INT3/RXIN)
5INT/STOP
P20 (
RESET
XOUT
XIN
TEST
OSC2
OSC1
P71 (
P70 (
P67 (Y/BL)
P66 (B)
P65 (G)
P64 (R)
)
VD
)
HD
P70 (HD)
P67 (Y/BL)
P66 (B)
P65 (G)
P64 (R)
N.C.
P57
P63 (RIN)
P62 (GIN)
P61 (BIN//AIN5/
P60 (Y/BLIN/AIN4/
2003-03-25
)
KWU5
)
)
4KWU
TMP88CS34CP34
Pin Functions (1/2)
Pin Name I/O Function
1-bit input/output port with latch.
P20 (
INT5/STOP
P35 (SDA0) I/O (Input/Output) I2C bus serial data input/output 0
P34 (SCL0) I/O (Input/Output) I2C bus serial clock input/output 0
P33 (TC4) I/O (Input)
P32 I/O
P31 (INT4/TC3) I/O (Input)
P30 (INT3/RXIN) I/O (Input)
P47 I/O
P46 I/O
P45 I/O
P44 I/O
P43 (
PWM3
P42 (
PWM2
P41 (
PWM1
P40 (
PWM0
P57 (I) I/O (Output) Translucent signal output
P56 (
KWU3
P55 (
KWU2
P54 (
KWU1
P53
(
/AIN0/TC1
KWU0
/INT2/
SCK1
P52 (SDA1/SO1)
P51 (SCL1/SI1)
P50 (TC2/
P67 (Y/BL) I/O (Output) Y or BL output
P66 (B) I/O (Output)
P65 (G) I/O (Output)
P64 (R) I/O (Output)
P63 (RIN) I/O (Input) R input
P62 (GIN) I/O (Input) G input
P61
/BIN/AIN5)
(
KWU5
P60
(
/YBLIN/AIN4)
KWU4
) I/O (Input)
) I/O (Output)
) I/O (Output)
) I/O (Output)
) I/O (Output)
/AIN3) I/O (Input)
/AIN2) I/O (Input)
/AIN1) I/O (Input)
I/O
)
INT0
)
(Input/Input/Input
/Input/Output)
I/O
(Input/Output/Output)
I/O
(Input/Output/Input)
I/O
(Input/Input)
I/O (Input)
I/O (Input)
When used as an input port, the
latch must be set to “1”.
6-bit programmable input/output
port. Each bit of these ports can be
individually configured as an input or
an output under software control.
During reset, all bits are configured
as inputs. When used as a serial bus
interface input/output, the latch must
be set to “1”.
8-bit programmable input/output
port. Each bit of these ports can be
individually configured as an input or
an output under software control.
During reset, all bits are configured
as inputs.
8-bit programmable input/output
port. Each bit of these ports can be
individually configured as an input or
an output under software control.
During reset, all bits are configured
as inputs. When used as a serial bus
interface input/output, the latch must
be set to “1”.
8-bit programmable input/output
port. (P67 to 61: Tri-State, P60: High
current output) Each bit of these
ports can be individually configured
as an input or an output under
software control. During reset, all
bits are configured as inputs. When
used P64 to P67 as port, each bit of
the P6 port data selection register
(bit 7 to 4 in ORP6S) must be set to
“1”.
P63 to P61 output 0 after a reset.
When these dual-function pins are
used as ports, be sure to set
ORP6S2 to “1”.
External interrupt input 5 or STOP
mode release signal input
Video signal input 1 or Composite
sync input
External interrupt input 4 or
Timer/Counter input 3
External interrupt input 3 or Remote
control signal preprocessor input
12-bit DA conversion (PWM) outputs
14/12-bit DA conversion (PWM)
outputs
Key on wake-up inputs or AD
converter analog inputs
Key on wake-up input or AD
converter analog input or
Timer/counter input 1 or External
interrupt input 2 or SIO serial clock
input/output 1
2
I
C bus serial data Input/Output 1 or
SIO serial data output 1
2
I
C bus serial data Input/Output 1 or
SIO serial data input 1
Timer/Counter input 2 or External
interrupt input 0
R/G/B outputs
Key on wake-up input 5 or B input or
AD converter analog input 5
Key on wake-up input 4 or Y/BL
input or AD converter analog input 4
88CS34-4
2003-03-25
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