NSC DP8212MJ

DP8212/DP8212M 8-Bit Input/Output Port
General Description
Features
The DP8212/DP8212M is an 8-bit input/output port contained in a standard 24-pin dual-in-line package. The device,
which is fabricated using Schottky Bipolar technology, is
part of National Semiconductor’s 8080A support family. The
DP8212/DP8212M can be used to implement latches, gated buffers, or multiplexers. Thus, all of the major peripheral
and input/output functions of a microcomputer system can
be implemented with this device.
The DP8212/DP8212M includes an 8-bit latch with
TRI-STATEÉ output buffers, and device selection and control logic. Also included is a service request flip-flop for the
generation and control of interrupts to the microprocessor.
Y
Y
Y
Y
Y
Y
Y
Y
8-Bit data latch and buffer
Service request flip-flop for generation and control of
interrupts
0.25 mA input load current
TRI-STATE TTL output drive capability
Outputs sink 15 mA
Asynchronous latch clear
3.65V output for direct interface to INS8080A
Reduces system package count by replacing buffers,
latches, and multiplexers in microcomputer systems
8080A Microcomputer Family Block Diagram
TL/F/6824 – 1
TRI-STATEÉ is a registered trademark of National Semiconductor Corp.
C1995 National Semiconductor Corporation
TL/F/6824
RRD-B30M105/Printed in U. S. A.
DP8212/DP8212M 8-Bit Input/Output Port
June 1988
Absolute Maximum Ratings
Operating Conditions
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
Min
Max
Units
Supply Voltage (VCC)
DP8212M
4.50
5.50
VDC
DP8212
4.75
5.25
VDC
Operating Temperaure (TA)
b 55
a 125
DP8212M
§C
a 75
DP8212
0
§C
Note: Maximum ratings indicate limits beyond which permanent damage may occur. Continuous operation at these limits is not intended and should be limited to those conditions
specified under DC electrical characteristics.
Storage Temperature
b 65§ C to a 160§ C
All Output or Supply Voltages
All Input Voltages
Output Currents
Maximum Power Dissipation* at 25§ C
Cavity Package
Molded Package
b 0.5V to a 7V
b 1.0V to 5.5V
125 mA
1903 mW
2005 mW
*Derate cavity package 12.7 mW/§ C above 25§ C; derate molded package
16.0 mW/§ C above 25§ C.
Electrical Characteristics Min s TA s Max, Min s VCC s Max, unless otherwise noted
Symbol
Parameter
Conditions
Max
Units
b 0.25
mA
VF e 0.45V
b 0.75
mA
VF e 0.45V
b 1.0
mA
VR e VCC Max
10
mA
Input Leakage Current, MD Input
VR e VCC Max
30
mA
Input Leakage Current, DS1 Input
VR e VCC Max
40
mA
VC
Input Forward Voltage Clamp
IC e b5 mA
b1
V
VIL
Input ‘‘Low’’ Voltage
IF
Input Load Current,
STB, DS2, CLR, DI1 – DI8 Inputs
IF
Input Load Current, MD Input
IF
Input Load Current, DS1 Input
IR
Input Leakage Current
STB, DS2, CLR, DI1 – DI8 Inputs
IR
IR
VIH
VOL
VOH
Min
Typ
VF e 0.45V
DP8212M
0.08
V
DP8212
0.85
V
Input ‘‘High’’ Voltage
2.0
Output ‘‘Low’’ Voltage
Output ‘‘High’’ Voltage
V
IOL e 10 mA
DP8212M
0.45
V
IOL e 15 mA
DP8212
0.45
V
IOH e 0.5 mA
DP8212M
3.40
4.0
IOH e 1.0 mA
DP8212
3.65
4.0
ISC
Short-Circuit Output Current
VO e 0V, VCC e 5V
l IO l
Output Leakage Current, High
Impedance State
VO e 0.45V/VCC Max
ICC
Power Supply Current
V
V
b 15
b 75
mA
20
mA
DP8212M
90
145
mA
DP8212
90
130
mA
Capacitance* F e 1 MHz, VBIAS e 2.5V, VCC e 5V, TA e 25§ C
Typ
Max
CIN
Symbol
DS1, MD Input Capacitance
Parameter
Min
9
12
pF
CIN
DS2, CLR, STB, DI1 – DI8 Input Capacitance
5
9
pF
COUT
DO1–DO8 Output Capacitance
8
12
pF
*This parameter is sampled and not 100% tested.
2
Units
Switching Characteristics Min s TA s Max, Min s VCC s Max
Symbol
Parameter
Conditions
DP8212M
Min
Max
40
DP8212
Min
Units
Max
tPW
Pulse Width
tPD
Data to Output Delay
(Note 1)
30
30
30
ns
ns
tWE
Write Enable to Output Delay
(Note 1)
50
40
ns
tSET
Data Set-Up Time
20
15
tH
Data Hold Time
30
20
tR
Reset to Output Delay
(Note 1)
55
40
ns
tS
Set to Output Delay
(Note 1)
35
30
ns
tE
Output Enable/Disable Time
(Note 2)
50
45
ns
tC
Clear to Output Delay
(Note 1)
65
55
ns
ns
ns
Note 1: CL e 30 pF
Note 2: CL e 30 pF except for DP8212M
tE (DISABLE) CL e 5 pF
Switching Conditions
1. Input Pulse Amplitude e 2.5V.
2. Input Rise and Fall Times e 5 ns.
3. Between 1V and 2V Measurements made at 1.5V with 15 mA & 30 pF Test Load.
4. CL includes jig and probe capacitance.
5. CL e 30 pF.
6. CL e 30 pF except for DP8212M tE (DISABLE) CL e 5 pF
Alternate Test Load
(Refer to Timing Diagram)
Test Load
TL/F/6824 – 2
TL/F/6824 – 3
3
Timing Diagram
TL/F/6824 – 4
4
Logic Diagram
TL/F/6824 – 5
5
Data In (DI1 –DI8): Eight-bit data input to the data latch,
which consists of eight D-type flip-flops. Incorporating a level sensitive clock while the data latch clock input is high, the
Q output of each flip-flop follows the data input. When the
clock input returns low, the data latch stores the data input.
The clock input high overrides the clear (CLR) input data
latch reset.
Clear (CLR): When low, asynchronously resets (clears) the
data latch and the service request flip-flop. The service request flip-flop is in the non-interrupting state when reset.
Logic Tables
Logic Table A
STB
MD
(DS1 # DS2)
Data Out
Equals
0
0
0
TRI-STATE
1
0
0
TRI-STATE
0
1
0
DATA LATCH
1
1
0
DATA LATCH
0
0
1
DATA LATCH
1
0
1
DATA IN
0
1
1
DATA IN
1
1
1
DATA IN
OUTPUT SIGNALS
Interrupt (INT): Goes low (interrupting state) when either
the service request flip-flop is synchronously set by the
strobe (STB) input or the device is selected.
Data Out (DO1 –DO8): Eight-bit data output of data buffers,
which are TRI-STATE, non-inverting stages. These buffers
have a common control line that either enables the buffers
to transmit the data from the data latch outputs or disables
the buffers by placing them in the high-impedance state.
CLR K resets data latch to the output low state.
The data latch clock is level sensitive, a low level clock latches the data.
Logic Table B
Connection Diagram
CLR
(DS1 # DS2)
STB
Q*
INT
0 RESET
0
0
0
1
1
0
0
0
1
1
0
K
1
0
1
1 RESET
0
0
0
1
0
0
0
1
Dual-In-Line Package
*Internal Service Request flip-flop.
Functional Pin Definitions
The following describes the function of all the DP8212/
DP8212M input/output pins. Some of these descriptions
reference internal circuits.
INPUT SIGNALS
Device Select (DS1, DS2): When DS1 is low and DS2 is
high, the device is selected. The output buffers are enabled
and the service request flip-flop is asynchronously reset
(cleared) when the device is selected.
Mode (MD): When high (output mode), the output buffers
are enabled and the source of the data latch clock input is
the device selection logic (DS1 # DS2). When low (input
mode), the state of the output buffers is determined by the
device selection logic (DS1 # DS2) and the source of the
data latch clock input is the strobe (STB) input.
Strobe (STB): Used as data latch clock input when the
mode (MD) input is low (input mode). Also used to synchronously set the service request flip-flop, which is negative
edge triggered.
TL/F/6824 – 6
Top View
Order Number DP8212J, DP8212N
or DP8212MJ
See NS Package Number J24A or N24A
6
Applications in Microcomputer Systems
Gated Buffer
(TRI-STATE)
TL/F/6824 – 7
TL/F/6824 – 8
Interrupting Input Port
Interrupt Instruction Port
TL/F/6824 – 10
TL/F/6824 – 9
7
Applications in Microcomputer Systems (Continued)
Output Port (with Hand-Shanking)
TL/F/6824 – 11
INS8080A Status Latch
TL/F/6824 – 12
8
Physical Dimensions inches (millimeters)
Ceramic Dual-In-Line Package (J)
Order Number DP8212J or DP8212MJ
NS Package Number J24A
9
DP8212/DP8212M 8-Bit Input/Output Port
Physical Dimensions inches (millimeters) (Continued)
Molded Dual-In-Line Package (N)
Order Number DP8212N
NS Package Number N24A
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