LSI RDD104

LSI/CSI
UL
RDD 104
®
LSI Computer Systems, Inc. 1235 Walt Whitman Road, Melville, NY 11747
(631) 271-0400 FAX (631) 271-0405
A3800
SELECTABLE 4 DECADE CMOS DIVIDER
The Output Division is selected according to the
following truth table:
DIVIDER SELECT INPUTS:
SELECT 2
SELECT 1
0
0
0
1
1
0
1
1
OUTPUT
DIVISION
10,000
1,000
100
10
The information included herein is believed to be
accurate and reliable. However, LSI Computer Systems,
Inc. assumes no responsibilities for inaccuracies, nor for
any infringements of patent rights of others which may
result from its use.
RDD104-092491
DIVIDER
SELECT-1
1
DIVIDER
SELECT-2
2
V SS (-V)
3
RESET
4
RDD 104
DESCRIPTION OF OPERATION:
The RDD104 is a monolithic CMOS four decade
divider circuit that advances on each negative
transition of the input clock pulse. When the reset
input is high the circuit is cleared to zero. The
clock input is applied to a three stage inverting
amplifier network whose output is brought out so
that an external crystal network can be used to
form an oscillator circuit. If the clock output is not
used,the amplifier acts as an input buffer. Two
select inputs are provided which enables the circuit
to divide by 10, 100, 1,000 or 10,000.
PIN ASSIGNMENT - TOP VIEW
LSI
FEATURES:
• Selectable Divide by 10 or 100 or 1,000 or 10,000
• Clock Input Shaping Network Accepts Fast or Slow
Edge Inputs
• Active Oscillator Network for External Crystal
• Square Wave Output
• Output TTL Compatible at +4.5 Volt Operation
• High Noise Immunity
• Reset
• All Inputs Protected
• +4.5V to +15V Operation (VDD-VSS)
• Low Power Dissipaton
• RDD104 (DIP); RDD104-S (SOIC) - See Figure 1
January 2000
8
V DD (+V)
7
OUTPUT
6
CLOCK OUTPUT
5 CLOCK INPUT
FIGURE 1
MAXIMUM RATINGS:
PARAMETER
Storage Temperature
Operating Temperature
DC Supply Voltage
Voltage at any input
SYMBOL
VALUE
UNIT
TSTG
-65 to +150
TA
-40 to +85
(VDD - VSS)
+18
VIN
VSS - 0.5 to VDD + 0.5
DC ELECTRICAL CHARACTERISTICS:
(All voltages referenced to Vss)
VDD -40°C +25°C
+85°C
°C
°C
V
V
UNIT
Quiescent Device Current
4.5V
10V
10
20
10
20
300
600
uA Max
uA Max
Output Voltage, Low Level
4.5V
10V
4.5V
10V
0.01
0.01
4.49
9.99
0.01
0.01
4.49
9.99
0.05
0.05
4.45
9.95
V Min
V Min
V Max
V Max
Input Noise Immunity
(Low and High)
4.5V
10V
1.3
3.0
1.3
3.0
1.3
3.0
V Min
V Min
Output Drive Current:
N-Channel Sink Current
(VOUT = Vss + 0.4V)
4.5V
10V
High Level
P-Channel Source Current
(VOUT = VDD - 1V)
Input Capacitance (any input)
4.5V
10V
2.3
5.0
1.9
4.0
1.1
2.5
0.95
2.1
5.0
1.6
3.5
0.8
1.8
mA Min
mA Min
mA Min
mA Min
pF Max
PIN 5
DYNAMIC ELECTRICAL CHARACTERISTICS:
(CL = 50pF, Input Rise and Fall Times = 20ns except for Clock,
unless otherwise specified.)
VDD
MIN
MAX
Clock Input Frequency
4.5V
0
1.5
10V
0
4.0
15V
0
6.0
UNIT
MHz
MHz
MHz
Clock Input Rise & Fall Times
4.5 to 15V
-
Clock Input Rise & Fall Time,
CL = 15pF
4.5V
10V
-
140
70
ns
ns
Clock Output Propagation
Delay, CL = 15pF
4.5V
10V
-
300
150
ns
ns
Output Rise & Fall Times
4.5V
10V
-
400
200
ns
ns
Propagation Delay to Output
4.5V
10V
-
1500
750
ns
ns
Reset Pulse Width
4.5V
10V
800
400
-
ns
ns
Reset Removal Time
4.5V
10V
-
500
250
ns
ns
Reset Propagation Delay
to Output
4.5V
10V
-
1400
700
ns
ns
Select Input Setup Time
4.5V
10V
-
800
400
ns
ns
10M
PIN 6
No Limit
FIGURE 2.
MINIMUM PARTS OSCILLATOR CIRCUIT
PIN 5
100pF
20M
10M
40pF
PIN 6
FIGURE 3.
TYPICAL OSCILLATOR CIRCUIT WITH TRIM -1 MHZ AND BELOW
PIN 5
50pF
10M
20pF
39pF
56pF
PIN 6
FIGURE 4.
TYPICAL OSCILLATOR CIRCUIT WITH TRIM - ABOVE 1 MHZ
V DD
V DD
FIGURE 5. TYPICAL INPUT
If input signals are less than VSS or greater than
VDD, a series input resistor, R1, should be used to
limit the maximum input current to 2 milliamperes.
R1
CLOCK
INPUT
SIGNAL
5
V SS
3 STAGE INVERTING
AMPLIFIER
5
CLOCK IN
OSCILLATOR
EXTERNAL
COMPONENTS
RDD 104 BLOCK DIAGRAM
CLOCK
GENERATOR
R
8
V DD
-V
3
V SS
÷ 10
÷ 10
÷ 10
÷ 10
6
CLOCK OUT
RESET
4
DIVIDER SELECT-1
1
DIVIDER SELECT-2
2
DECODER
RDD104-011000-2
+V
FIGURE 6.
1 OUT OF 4 SELECTOR
BUFFER
7
OUTPUT