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KS88C0916/P0916 MICROCONTROLLER
PRODUCT OVERVIEW
1
PRODUCT OVERVIEW
KS88-SERIES MICROCONTROLLERS
Samsung's KS88 series of 8-bit single-chip CMOS microcontrollers offers a fast and efficient CPU, a wide range of integrated peripherals, and various mask-programmable ROM sizes. Important CPU features include: -- Efficient register-oriented architecture -- Selectable CPU clock sources -- Idle and Stop power-down mode release by interrupt -- Built-in basic timer with watchdog function A sophisticated interrupt structure recognizes up to eight interrupt levels. Each level can have one or more interrupt sources and vectors. Fast interrupt processing (within a minimum six CPU clocks) can be assigned to specific interrupt levels.
KS88C0916/P0916 MICROCONTROLLER
The KS88C0916/P0916 single-chip CMOS microcontroller is fabricated using a highly advanced CMOS process and is based on Samsung's newest CPU architecture. The KS88C0916 is the microcontroller which has 16Kbytes mask-programmable ROM. The KS88P0916 is the microcontroller which has 16Kbytes one-time-programmable EPROM. Using a proven modular design approach, Samsung engineers developed the KS88C0916/P0916 by integrating the following peripheral modules with the powerful SAM87 core: -- Four programmable I/O ports, including three 8-bit ports and one 2-bit port, for a total of 26 pins. -- Twelve bit-programmable pins for external interrupts. -- One 8-bit basic timer for oscillation stabilization and watchdog functions (system reset). Figure 1-1. KS88C0916 Microcontroller -- One 8-bit timer/counter and one 16-bit timer/counter with selectable operating modes. -- One 8-bit counter with auto-reload function and one-shot or repeat control. The KS88C0916 is a versatile general-purpose microcontroller. It is currently available in a 32-pin SOP and SDIP package.
1-1
PRODUCT OVERVIEW
KS88C0916/P0916 MICROCONTROLLER
FEATURES
CPU * SAM87 CPU core Timers and Timer/Counters * One programmable 8-bit basic timer (BT) for oscillation stabilization control or watchdog timer (software reset) function One 8-bit timer/counter (Timer 0) with three operating modes; Interval, Capture and PWM One 16-bit timer/counter (Timer 1) with two operating modes; Interval and Capture
Memory * * 16-Kbyte internal program memory (ROM) 317-byte internal register file * *
Instruction Set * * 78 instructions IDLE and STOP instructions added for powerdown modes
Carrier Frequency Generator * One 8-bit counter with auto-reload function and one-shot or repeat control (Counter A)
Instruction Execution Time * 750 ns at 8-MHz fOSC (minimum) *
Operating Temperature Range - 20C to + 85C
Interrupts * * * Six interrupt levels and 18 interrupt sources 15 vectors (14 sources have a dedicated vector address and four sources share a single vector) Fast interrupt processing feature (for one selected interrupt level)
Operating Voltage Range * * 2.0 V to 5.5 V at 4 MHz fOSC 2.4 V to 5.5 V at 8 MHz fOSC
Package Type I/O Ports * * Three 8-bit I/O ports (P0-P2) and one 2-bit port (P3) for a total of 26 bit-programmable pins Twelve input pins for external interrupts * * 32-pin SOP 32-pin SDIP
1-2
KS88C0916/P0916 MICROCONTROLLER
PRODUCT OVERVIEW
BLOCK DIAGRAM
P0.00.7 (INT0NT4)
P1.01.7
RESET TEST XIN XOUT MAIN OSC PORT 0 PORT 1
INTERNAL BUS PORT2 I/O PORT and INTERRUPT CONTROL
P2.02.3 (INT5NT8) P2.42.7
8-BIT BASIC TIMER
SAM8 CPU
8-BIT TIMER/ COUNTER
PORT 3
P3.0/T0PWM/ T0CAP/T1CAP
P3.1/REM/T0CK
16-BIT TIMER/ COUNTER
16-KB ROM
317-BYTES REGISTER FILE
CARRIER GENERATOR (COUNTER A)
Figure 1-2. Block Diagram
1-3
PRODUCT OVERVIEW
KS88C0916/P0916 MICROCONTROLLER
PIN ASSIGNMENTS
VSS XIN XOUT TEST P2.0 / INT5 P2.1 / INT6 P2.2 / INT7 P2.3 / INT8 P0.0 / INT0 P0.1 / INT1 P0.2 / INT2 P0.3 / INT3 P0.4 / INT4 P0.5 / INT4 P0.6 / INT4 P0.7 / INT4
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
KS88C0916 32-SOP/SDIP (Top View)
32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17
VDD RESET P3.1 / REM / T0CK P3.0 / T0PWM / T0CAP / T1CAP P2.7 P2.6 P2.5 P2.4 P1.7 P1.6 P1.5 P1.4 P1.3 P1.2 P1.1 P1.0
Figure 1-3. Pin Assignment Diagram (32-Pin SOP/SDIP Package)
1-4
KS88C0916/P0916 MICROCONTROLLER
PRODUCT OVERVIEW
PIN DESCRIPTIONS
Table 1-1. Pin Descriptions Pin Names P0.0-P0.7 Pin Type I/O Pin Description I/O port with bit-programmable pins. Configurable to input or push-pull output mode. Pull-up resistors are assignable by software. Pins can be assigned individually as external interrupt inputs with noise filters, interrupt enable/ disable, and interrupt pending control. I/O port with bit-programmable pins. Configurable to Schmitt trigger input mode or output mode. Pin circuits are either pushpull or n-channel open-drain type. Pull-up resistors are assignable by software. General-purpose I/O port with bitprogrammable pins. Configurable to Schmitt trigger input mode, push-pull output mode, or n-channel open-drain output mode. Pullup resistors are assignable by software. Lower nibble pins, P2.3-P2.0, can be assigned as external interrupt inputs with noise filters, interrupt enable/disable, and interrupt pending control. 2-bit I/O port with bit-programmable pins. Configurable to Schmitt trigger input mode, push-pull output mode, or n-channel opendrain output mode. Pull-up resistors are assignable by software. The two port 3 pins have high current drive capability. System clock input and output pins System reset signal input pin with schmitt trigger circuit. Test signal input pin (for factory use only; must be connected to VSS). VDD VSS -- -- Power supply input pin Ground pin -- -- 32 1 -- -- Circuit Type 1 Pin No. 9-16 Shared Functions INT0-INT4
P1.0-P1.7
I/O
3
17-24
--
P2.0-P2.3 P2.4-P2.7
I/O
2 3
5-8, 25-28
INT5-INT8 --
P3.0 P3.1
I/O
4
29 30
T0PWM/ T0CAP/ T1CAP/ REM/T0CK
XIN, XOUT RESET TEST
-- I I
-- 5 --
2, 3 31 4
-- -- --
1-5
PRODUCT OVERVIEW
KS88C0916/P0916 MICROCONTROLLER
PIN CIRCUITS
V DD
PULL-UP RESISTOR (Typical 50 )
PULL-UP ENABLE
V DD
DATA INPUT / OUTPUT OUTPUT DISABLE
INTERRUPT INPUT IRQ6,7 (INT0 -4)
NORMAL INPUT
NOISE FILTER
V SS
Figure 1-4. Pin Circuit Type 1 (Port 0)
1-6
KS88C0916/P0916 MICROCONTROLLER
PRODUCT OVERVIEW
PIN CIRCUITS (Cont.)
V DD
PULL-UP RESISTOR (Typical 50 ) PULL-UP ENABLE
VDD
DATA
IN / OUT OPEN-DRAIN OUTPUT DISABLE
NORMAL INPUT EXTERNAL INTERRUPT IRQ5 (INT5-8)
VSS
NOISE FILTER
Figure 1-5. Pin Circuit Type 2 (Ports 2.0-2.3)
1-7
PRODUCT OVERVIEW
KS88C0916/P0916 MICROCONTROLLER
PIN CIRCUITS (Cont.)
VDD
PULL-UP RESISTOR (Typical 50 ) PULL-UP ENABLE
VDD
DATA
OPENDRAIN OUTPUT DISABLE NORMAL INPUT
IN / OUT
VSS
Figure 1-6. Pin Circuit Type 3 (Ports 1 and P2.4-P2.7)
1-8
KS88C0916/P0916 MICROCONTROLLER
PRODUCT OVERVIEW
PIN CIRCUITS (Cont.)
VDD
PULL-UP RESISTOR (Typical 50 ) PULL-UP ENABLE PORT 3 DATA ALTERNATIVE OUTPUT OPENDRAIN OUTPUT DISABLE NORMAL INPUT ALTERNATIVE INPUT NOISE FILTER SELECT
VDD
M U X DATA
IN / OUT
VSS
Figure 1-7. Pin Circuit Type 4 (Port 3)
RESET
Figure 1-8. Pin Circuit Type 5 (RESET)
1-9
PRODUCT OVERVIEW
KS88C0916/P0916 MICROCONTROLLER
NOTES
1-10
KS88C0916/P0916 MICROCONTROLLER
OTP
13
OVERVIEW
OTP
The KS88P0916 single-chip CMOS microcontroller is the OTP (One Time Programmable) version of the KS88C0916 microcontroller. It has an on-chip EPROM instead of masked ROM. The KS88P0916 is fully compatible with the KS88C0916, both in function and in pin configuration. Because of its simple programming requirements, the KS88P0916 is ideal for use as an evaluation chip for the KS88C0916.
Vss Xin Xout MODE / TEST PG M / P2.0 / INT5 MEM_R EG / P2.1 / INT6 A8 / P2.2 / INT7 A9 / P2.3 / INT8 A0 / P0.0 / INT0 A1 / P0.1 / INT1 A2 / P0.2 / INT2 A3 / P0.3 / INT3 A4 / P0.4 / INT4 A5 / P0.5 / INT4 A6 / P0.6 / INT4 A7 / P0.7 / INT4
1 2 3 4 5 6 7 8 KS88P0916 9 (Top View) 10 11 12 13 14 15 16
32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17
VDD
R ESET/ Vpp
P3.1 / REM / T0CK/ C E P3.0 / O E P2.7 / A13 P2.6 /A12 P2.5 / A11 P2.4 /A10 P1.7 / D7 P1.6 /D6 P1.5 / D5 P1.4 / D4 P1.3 /D3 P1.2 / D2 P1.1 / D1 P1.0 /D0
Figure 13-1. KS88P0916 Pin Assignments
13-1
OTP
KS88C0916/P0916 MICROCONTROLLER
Table 13-1. Pin Descriptions used to read/write the EPROM Pin Name A0 - A13 D0 - D7 MODE CE OE PGM MEM_REG VDD VPP VSS Xin Xout Pin No. 7 - 16, 25 - 28 17 - 24 4 30 29 5 6 32 31 1 2 3 I/O O I/O -- I I I I -- -- -- -- -- Function Address lines to read/write EPROM 8-bit data input/output lines to read/write EPROM Select EPROM mode. Chip enable (Connect to VSS, when read/write EPROM) Output enable EPROM Program enable Select Memory space of EPROM Supply voltage (normally 5 V) EPROM Program/Verify voltage (normally 12.5 V) GROUND System Clock input pin System Clock output pin
CHARACTERISTICS OF EPROM OPERATION When +12.5 V is supplied to VPP and MODE pins of the KS88P0916, the EPROM programming mode is entered. The operating mode (read, write) is selected according to the input signals to the pins listed in Table2 as below.
Table 13-2. Operating Mode Selection Criteria VDD 5V MODE VPP VPP 12.5 V PGM 1 0 1
NOTE: "0" means Low level; "1" means High level.
MEM 1 1 1
OE 0 1 0 READ PROGRAM
Mode
PROGRAM VERIFY
13-2
KS88C0916/P0916 MICROCONTROLLER
OTP
A13 - A0
t OED D7 - D0 t OEH t ACC OE t OEW MODE
12.5V
Figure 13-2. OTP Read Timing
Table 13-3. OTP Read characteristics (TA = 25 C 5C, VDD = 5 V 5 %, VPP = 12.5 V 0.25V) Parameter Address to Output Delay OE to Address Delay OE Pulse Width Output hold from OE whichever occurs first Symbol tACC tOED tOEW tOEH Min -- 0 75 0 Typ -- -- -- -- Max 75 -- -- -- Units ns
13-3
OTP
KS88C0916/P0916 MICROCONTROLLER
PROGRAM A13 - A0
PROGRAM VERIFY
D7 - D0 t DS MODE
Data In Stable
Data Out Valid t OEH
t VS PGM t PW
t DH t OE
t OEW OE
Figure 13-3. Program Memory Write Timing
Table 13-4. OTP Program/Program Verify Characteristics (TA = 25 C 5C, VDD = 5 V 5 %, VPP = 12.5 V 0.25V) Parameter VPP Setup Time Data Setup Time Data Hold Time PGM Pulse Width Data Valid from OE OE Pulse Width Output Enable to Output Float Delay Symbol tVS tDS tDH tPW tOE tOEW tOEH Min -- -- -- -- 75 75 0 Typ 2 2 2 300 -- -- -- Max -- -- -- 500 -- -- 130 ns Units s
13-4
KS88C0916/P0916 MICROCONTROLLER
OTP
START
Address = First Location
VDD = 5 V, VPP = 12.5 V
X=0
Program One 1ms Pulse
Increment X
YES
X = 10
NO
FAIL
FAIL
Verify Byte
Verify 1 Byte
PASS NO
Last Address
YES
Increment Address
Device Failed
FAIL
VDD = VPP = 5V
Compare All byte
PASS
Device Passed
Figure 13-4. OTP Programming Algorithm
13-5
OTP
KS88C0916/P0916 MICROCONTROLLER
NOTES
13-6
KS88C0916/P0916 MICROCONTROLLER
ELECTRICAL DATA
14
OVERVIEW -- -- -- -- -- -- -- -- -- -- -- I/O capacitance
ELECTRICAL DATA
In this section, KS88C0916/P0916 electrical characteristics are presented in tables and graphs. The information is arranged in the following order: Absolute maximum ratings D.C. electrical characteristics Data retention supply voltage in Stop mode Stop mode release timing when initiated by an external interrupt Stop mode release timing when initiated by a Reset A.C. electrical characteristics Input timing for external interrupts (port 0, P2.3-P2.0) Input timing for RESET Oscillation characteristics Oscillation stabilization time
14-1
ELECTRICAL DATA
KS88C0916/P0916 MICROCONTROLLER
Table 14-1. Absolute Maximum Ratings (TA = 25C) Parameter Supply voltage Input voltage Output voltage Output current High Output current Low Symbol VDD VIN VO IOH All output pins One I/O pin active All I/O pins active IOL One I/O pin active Total pin current for ports 0, 1, and 2 Total pin current for port 3 Operating temperature Storage temperature TA TSTG -- -- Conditions -- -- Rating - 0.3 to + 6.5 - 0.3 to VDD + 0.3 - 0.3 to VDD + 0.3 - 18 - 60 + 30 + 100 + 20 - 20 to + 85 - 65 to + 150
C C
Unit V V V mA
mA
Table 14-2. D.C. Electrical Characteristics (TA = - 20C to + 85C, VDD = 2.0 V to 5.5 V) Parameter Operating Voltage Symbol VDD Conditions FOSC = 8 MHz
(Instruction clock = 1.33 MHz)
Min 2.4 2.0 0.8 VDD 0.95 VDD VDD - 0.3 0
Typ -- -- --
Max 5.5 5.5 VDD VDD VDD
Unit V
FOSC = 4 MHz
(Instruction clock = 0.67 MHz)
Input High voltage
VIH1 VIH2 VIH3
All input pins except VIH2 and VIH3 RESET XIN All input pins except VIL2 and VIL3 RESET XIN VDD= 3.0 V IOH = - 7 mA Port 3 only
V
Input Low voltage
VIL1 VIL2 VIL3 VOH1
--
0.2 VDD 0.3 VDD 0.3
V
Output High voltage
VDD - 2.0
--
--
V
14-2
KS88C0916/P0916 MICROCONTROLLER
ELECTRICAL DATA
Table 14-2. D.C. Electrical Characteristics (Continued) (TA = - 20C to + 85C, VDD = 2.0 V to 5.5 V) Parameter Output High voltage Output Low voltage Symbol VOH2 Conditions VDD = 3.0 V IOH = - 200 A All output pins except port 3 VDD = 3.0 V IOL = 1.5 mA, port 3 only IOL = 1 mA Ports 0, 1 and 2 VIN = VDD; all input pins except XIN and XOUT VIN = VDD, XIN and XOUT VIN = 0 V; all input pins except XIN, XOUT, and RESET VIN = 0 V, XIN and XOUT VOUT = VDD All output pins VOUT = 0 V All output pins VIN = 0 V; TA = 25C VDD = 5.0 V 10% Ports 0-3 Operating mode; VDD = 5.0 V 10% 4-MHz crystal Idle mode; VDD = 5.0 V 10% 4-MHz crystal Stop mode; VDD = 5.0 V 10% VDD = 3.6 V -- -- 30 -- -- 50 -- -- -- Min VDD - 1.0 Typ -- Max -- Unit V
VOL1 VOL2
--
0.3 0.4 --
0.6 1.0 1 20 -1 A A
Input High leakage current
ILIH1 ILIH2
Input Low leakage current
ILIL1
ILIL2 Output High leakage current Output Low leakage current Pull-up resistors ILOH ILOL RL1
- 20 1 -1 100 A A K
Supply current
(See Note)
IDD1
--
4.5
9
mA
IDD2
1.6
3
IDD3
0.3 0.1
3 1
A
NOTE: Supply current does not include current drawn through internal pull-up resistors or external output current loads.
14-3
ELECTRICAL DATA
KS88C0916/P0916 MICROCONTROLLER
Table 14-3. Data Retention Supply Voltage in Stop Mode (TA = - 20 C to + 85 C) Parameter Data retention supply voltage Data retention supply current Symbol VDDDR IDDDR Conditions -- VDDDR = 1.0 V Stop mode Min 1.0 -- Typ -- -- Max 5.5 1 Unit V A
IDLE MODE (Basic Timer active)
STOP MODE DATA RETENTION MODE
V DD V DDDR
EXT INT EXECUTION OF STOP INSTRUCTION
NORMAL OPERATING MODE
0.2 V DD
0.8 V DD
tWAIT Figure 14-1. Stop Mode Release Timing When Initiated by an External Interrupt
RESET OCCURS STOP MODE DATA RETENTION MODE VDD VDDDR EXECUTION OF STOP INSTRUCTION RESET
OSCILLATION STABILIZATION TIME NORMAL OPERATING MODE
Note :
t WAIT is the same as 4096 x 16 x 1/f OSC
t WAIT
Figure 14-2. Stop Mode Release Timing When Initiated by a Reset
14-4
KS88C0916/P0916 MICROCONTROLLER
ELECTRICAL DATA
Table 14-4. Input/Output Capacitance (TA = - 20C to + 85C, VDD = 0 V) Parameter Input capacitance Output capacitance I/O capacitance Symbol CIN COUT CIO Table 14-5. A.C. Electrical Characteristics (TA = - 20C to + 85C) Parameter Interrupt input, High, Low width RESET input Low width Symbol tINTH, tINTL tRSL Conditions P0.0-P0.7, P2.3-P2.0 VDD = 5 V Input VDD = 5 V Min 200 1000 Typ 300 -- Max -- -- Unit ns Conditions f = 1 MHz; unmeasured pins are connected to VSS Min -- Typ -- Max 10 Unit pF
tINTL
tINTH
0.8 V DD 0.2 V DD
NOTE: The unit t CPU means one CPU clock period.
Figure 14-3. Input Timing for External Interrupts (Port 0, P2.3-P2.0)
t RSL RESET 0.3 V DD
Figure 14-4. Input Timing for RESET
14-5
ELECTRICAL DATA
KS88C0916/P0916 MICROCONTROLLER
Table 14-6. Oscillation Characteristics (TA = - 20C + 85C) Oscillator Crystal Clock Circuit
C1
Conditions CPU clock oscillation frequency
Min 0.4
Typ --
Max 8
Unit MHz
XIN XOUT
C2
Ceramic
C1
XIN XOUT
C2
CPU clock oscillation frequency
0.4
--
8
MHz
External clock
XIN
EXTERNAL CLOCK
XIN input frequency
KS88C0916
0.4
--
8
MHz
OPEN PIN
XOUT
Table 14-7. Oscillation Stabilization Time (TA = - 20C + 85C, VDD = 4.5 V to 5.5 V) Oscillator Main crystal Main ceramic External clock (main system) Oscillator stabilization wait time fOSC > 400 kHz Oscillation stabilization occurs when VDD is equal to the minimum oscillator voltage range. XIN input High and Low width (tXH, tXL) tWAIT when released by a reset (1) Test Condition Min -- -- 25 -- Typ -- -- -- 2/ fOSC --
16
Max 20 10 500 --
Unit ms ms ns ms
tWAIT when released by an interrupt (2)
--
--
ms
NOTES: 1. fOSC is the oscillator frequency. 2. The duration of the oscillation stabilization time (tWAIT) when it is released by an interrupt is determined by the setting in the basic timer control register, BTCON.
14-6
KS88C0916/P0916 MICROCONTROLLER
ELECTRICAL DATA
INSTRUCTION CLOCK 1.33 MHz B A C
F OSC (Main oscillation frequency) 8 MHz 6 MHz 4 MHz
1.00 MHz 670 kHz 500 kHz
250 kHz
8.32 kHz
400 kHz
1
2
3
4
5
6
7
SUPPLY VOLTAGE (V) INSTRUCTION CLOCK = 1/6n x oscillator frequency (n = 1, 2, 8, 16) A 2.0 V: 4 MHz, B 2.2 V: 6 MHz, C 2.4 V: 8 MHz
Figure 14-5. Operating Voltage Range
14-7
ELECTRICAL DATA
KS88C0916/P0916 MICROCONTROLLER
0 -1 -2 -3 VDD = 3V -4
IOH (mA)
-5 -6 -7 -8 -9 -10 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 VDD = 5V VDD = 4V
V OH (V)
Figure 14-6. IOH vs. VOH (Port 0)
14-8
KS88C0916/P0916 MICROCONTROLLER
ELECTRICAL DATA
0 -1 -2 -3 VDD = 3V -4
IOH (mA)
-5 -6 -7 -8 -9 -10 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 VDD = 5V VDD = 4V
V OH (V)
Figure 14-7. IOH vs. VOH (Port 2)
14-9
ELECTRICAL DATA
KS88C0916/P0916 MICROCONTROLLER
0 -4 -8 -12 VDD = 3V -16
IOH (mA) -20
-24 -28 -32 -36 -40 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 VDD = 5V VDD = 4V
VOH (V)
Figure 14-8. IOH vs. VOH (Port 3)
14-10
KS88C0916/P0916 MICROCONTROLLER
ELECTRICAL DATA
20 18 16 14 12 VDD = 5V
IOL (mA) 10
8 6 4 2
VDD = 4V
VDD = 3V
0
0.3
0.6
0.9
1.2
1.5
1.8
2.1
2.4
2.7
3
V OL (V) Figure 14-9. IOL vs. VOL (Port 0)
14-11
ELECTRICAL DATA
KS88C0916/P0916 MICROCONTROLLER
20 18 16 14 12 VDD = 5V
IOL (mA) 10
8 6 4 2
VDD = 4V
VDD = 3V
0
0.3
0.6
0.9
1.2
1.5
1.8
2.1
2.4
2.7
3
V OL (V) Figure 14-10. IOL vs. VOL (Port 2)
14-12
KS88C0916/P0916 MICROCONTROLLER
ELECTRICAL DATA
50 45 VDD = 5V 40 35 30 VDD = 4V
IOL (mA) 25
20 15 10 5
VDD = 3V
0
0.35
0.7
1.05
1.4
1.75
2.1
2.45
2.8
3.15
3.5
V OL (V) Figure 14-11. IOL vs. VOL (Port 3)
14-13
ELECTRICAL DATA
KS88C0916/P0916 MICROCONTROLLER
NOTES
14-14
KS88C0916/P0916 MICROCONTROLLER
MECHANICAL DATA
15
OVERVIEW
12.000.3
MECHANICAL DATA
The KS88C0916 microcontroller is currently available in a 32-pin SOP package.
0~8 #32 #17
8.340.2
11.43
- 0.05
32-SOP-450A
#1
#16
0.20 +0.10
2.00 0.2
19.900.2
(0.43)
0.40 0.1
1.27
NOTE: Dimensions are in millimeters.
Figure 15-1. 32-Pin SOP Package Mechanical Data
0.0MIN
2.40MAX
0.10 MAX
0.780.20
15-1
MECHANICAL DATA
KS88C0916/P0916 MICROCONTROLLER
#32 9.10 0.20
#17 0 15 10.16
0.0 5
32-SDIP-400
#1 27.88 MAX 27.48 0.2
#16 3.80 0.2 5.08MAX
0.45 0.10 (1.37) 1.00 0.10 1.778
NOTE: Dimensions are in millimeters.
Figure 15-2. 32-Pin SDIP Package Mechanical Data
15-2
3.30 0.3
0.51MIN
0.25 +0.1

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