DataSheet26.com

DM2503CJ PDF даташит

Спецификация DM2503CJ изготовлена ​​​​«National Semiconductor» и имеет функцию, называемую «Successive Approximation Registers».

Детали детали

Номер произв DM2503CJ
Описание Successive Approximation Registers
Производители National Semiconductor
логотип National Semiconductor логотип 

8 Pages
scroll

No Preview Available !

DM2503CJ Даташит, Описание, Даташиты
November 1995
DM2502 DM2503 DM2504 Successive Approximation
Registers
General Description
The DM2502 DM2503 and DM2504 are 8-bit and 12-bit
TTL registers designed for use in successive approximation
A D converters These devices contain all the logic and
control circuits necessary in combination with a D A con-
verter to perform successive approximation analog-to-digital
conversions
The DM2502 has 8 bits with serial capability and is not ex-
pandable The DM2503 has 8 bits and is expandable with-
out serial capability The DM2504 has 12 bits with serial
capability and expandability
All three devices are available in ceramic DIP ceramic flat-
pak and molded Epoxy-B DIPs The DM2502 DM2503 and
DM2504 operate over b55 C to a125 C the DM2502C
DM2503C and DM2504C operate over 0 C to a70 C
Features
Y Complete logic for successive approximation A D con-
verters
Y 8-bit and 12-bit registers
Y Capable of short cycle or expanded operation
Y Continuous or start-stop operation
Y Compatible with D A converters using any logic code
Y Active low or active high logic outputs
Y Use as general purpose serial-to-parallel converter or
ring counter
Logic Diagram
Connection Diagrams (Dual-In-Line and Flat Packages)
DM2502 DM2503
DM2504
Order Number DM2502J DM2502CJ DM2503J
or DM2503CJ
See NS Package J16A
Order Number DM2502CN or DM2503CN
See NS Package N16A
Order Number DM2502W DM2502CW DM2503W
or DM2503CW
See NS Package W16A
Order Number DM2504F or DM2504CJ
See NS Package F24D
Order Number DM2504J or DM2504CJ
See NS Package J24A
Order Number DM2504CN
See NS Package N24A
TL F 5702 – 1
C1995 National Semiconductor Corporation TL F 5702
RRD-B30M115 Printed in U S A









No Preview Available !

DM2503CJ Даташит, Описание, Даташиты
Absolute Maximum Ratings (Note 1)
Supply Voltage
7V
Input Voltage
5 5V
Output Voltage
5 5V
Storage Temperature Range
b65 C to a150 C
Lead Temperature (Soldering 10 seconds)
300 C
Operating Conditions
Supply Voltage VCC
DM2502C DM2503C
DM2504C
Min
4 75
DM2502 DM2503
DM2504
45
Temperature TA
DM2502C DM2503C
DM2504C
0
DM2502 DM2503
DM2504
b55
Max
5 25
55
a70
a125
Units
V
V
C
C
Electrical Characteristics (Notes 2 and 3) VCCe5 0V TAe25 C CLe15 pF unless otherwise specified
Parameter
Conditions
Min Typ Max Units
Logical ‘‘1’’ Input Voltage (VIH)
Logical ‘‘1’’ Input Current (IIH)
CP Input
D E S Inputs
All Inputs
Logical ‘‘0’’ Input Voltage (VIL)
Logical ‘‘0’’ Input Current (IIL)
CP S Inputs
D E Inputs
Logical ‘‘1’’ Output Voltage (VOH)
Output Short Circuit Current
(Note 4) (IOS)
Logical ‘‘0’’ Output Voltage (VOL)
Supply Current (ICC)
DM2502C
DM2502
DM2503C
DM2503
DM2504C
DM2504
VCCeMin
VCCeMax
VIHe2 4V
VIHe2 4V
VIHe5 5V
VCCeMin
VCCeMax
VILe0 4V
VILe0 4V
VCCeMin IOHe0 48 mA
VCCeMax VOUTe0 0V
Output High CP D S High E Low
VCCeMin IOLe9 6 mA
VCCeMax All Outputs Low
20
24
b10
6
6
b1 0
b1 0
36
b20
02
65
65
60
60
90
90
40
80
10
08
b1 6
b3 2
b45
04
95
85
90
80
124
110
V
mA
mA
mA
V
mA
mA
V
mA
V
mA
mA
mA
mA
mA
mA
Propagation Delay to a Logical ‘‘0’’
From CP to Any Output (tpd0)
Propagation Delay to a Logical ‘‘0’’
From E to Q7 (Q11) Output (tpd0)
CP High S Low
DM2503 DM2503C DM2504
DM2504C Only
10 18 28 ns
16 24 ns
Propagation Delay to a Logical ‘‘1’’
From CP to Any Output (tpd1)
Propagation Delay to a Logical ‘‘1’’
From E to Q7 (Q11) Output (tpd1)
CP High S Low
DM2503 DM2503C DM2504
DM2504C Only
10 26 38 ns
13 19 ns
Set-Up Time Data Input (ts(D))
b10
4
8
ns
Set-Up Time Start Input (ts(S)
0 9 16 ns
Minimum Low CP Width (tPWL)
30 42 ns
Minimum High CP Width (tPWH)
17 24 ns
Maximum Clock Frequency (fMAX)
15 21
MHz
Note 1 ‘‘Absolute Maximum Ratings’’ are those values beyond which the safety of the device cannot be guaranteed Except for ‘‘Operating Temperature Range’’
they are not meant to imply that the devices should be operated at these limits The table of ‘‘Electrical Characteristics’’ provides conditions for actual device
operation
Note 2 Unless otherwise specified min max limits apply across the b55 C to a125 C temperature range for the DM2502 DM2503 and DM2504 and across the
0 C to a70 C range for the DM2502C DM2503C and DM2504C All typicals are given for VCCe5 0V and TAe25 C
Note 3 All currents into device pins shown as positive out of device pins as negative all voltages referenced to ground unless otherwise noted All values shown
as max or min on absolute value basis
Note 4 Only one output at a time should be shorted
2









No Preview Available !

DM2503CJ Даташит, Описание, Даташиты
Application Information
OPERATION
The registers consist of a set of master latches that act as
the control elements in the device and change state on the
input clock high-to-low transition and a set of slave latches
that hold the register data and change on the input clock
low-to-high transition Externally the device acts as a special
purpose serial-to-parallel converter that accepts data at the
D input of the register and sends the data to the appropriate
slave latch to appear at the register output and the DO out-
put on the DM2502 and DM2504 when the clock goes from
low-to-high There are no restrictions on the data input it
can change state at any time except during a short interval
centered about the clock low-to-high transition At the same
time that data enters the register bit the next less significant
bit register is set to a low ready for the next iteration
The register is reset by holding the S (Start) signal low dur-
ing the clock low-to-high transition The register synchro-
nously resets to the state Q7 (11) low and all the remaining
register outputs high The QCC (Conversion Complete) sig-
nal is also set high at this time The S signal should not be
brought back high until after the clock low-to-high transition
in order to guarantee correct resetting After the clock has
gone high resetting the register the S signal must be re-
moved On the next clock low-to-high transition the data on
the D input is set into the Q7 (11) register bit and the Q6
(10) register bit is set to a low ready for the next clock cycle
On the next clock low-to-high transition data enters the Q6
(10) register bit and Q5 (9) is set to a low This operation is
repeated for each register bit in turn until the register has
been filled When the data goes into Q0 the QCC signal
goes low and the register is inhibited from further change
until reset by a Start signal
The DM2502 DM2503 and DM2504 have a specially tai-
lored two-phase clock generator to provide nonoverlapping
two-phase clock pulses (i e the clock waveforms intersect
below the thresholds of the gates they drive) Thus even at
very slow dV dt rates at the clock input (such as from rela-
tively weak comparator outputs) improper logic operation
will not result
LOGIC CODES
All three registers can be operated with various logic codes
Two’s complement code is used by offsetting the compara-
tor full range a LSB and using the complement of the
MSB (Q7 or Q11) with a binary D A converter Offset binary
is used in the same manner but with the MSB (Q7 or Q11)
BCD D A converters can be used with the addition of illegal
code suppression logic
ACTIVE HIGH OR ACTIVE LOW LOGIC
The register can be used with either D A converters that
require a low voltage level to turn on or D A converters that
require a high voltage level to turn the switch on If D A
converters are used which turn on with a low logic level the
resulting digital output from the register is active low That
is a logic ‘‘1’’ is represented as a low voltage level If D A
converters are used that turn on with a high logic level then
the digital output is active high a logic ‘‘1’’ is represented as
a high voltage level
EXPANDED OPERATION
An active low enable input E on the DM2503 and DM2504
allows registers to be connected together to form a longer
register by connecting the clock D and S inputs in parallel
and connecting the QCC output of one register to the E input
of the next less significant register When the start resets
the register the E signal goes high forcing the Q7 (11) bit
high and inhibiting the register from accepting data until the
previous register is full and its QCC goes low If only one
register is used the E input should be held at a low logic
level
Timing Diagram
DM2502 DM2503
TL F 5702 – 2
3










Скачать PDF:

[ DM2503CJ.PDF Даташит ]

Номер в каталогеОписаниеПроизводители
DM2503CJSuccessive Approximation RegistersNational Semiconductor
National Semiconductor
DM2503CNSuccessive Approximation RegistersNational Semiconductor
National Semiconductor
DM2503CWSuccessive Approximation RegistersNational Semiconductor
National Semiconductor

Номер в каталоге Описание Производители
TL431

100 мА, регулируемый прецизионный шунтирующий регулятор

Unisonic Technologies
Unisonic Technologies
IRF840

8 А, 500 В, N-канальный МОП-транзистор

Vishay
Vishay
LM317

Линейный стабилизатор напряжения, 1,5 А

STMicroelectronics
STMicroelectronics

DataSheet26.com    |    2020    |

  Контакты    |    Поиск