MITEL SP8782A

SP8782A & B
SP8782A & B
1GHz ÷ 16/17, ÷32/33 Multi-Modulus Divider
DS3651
Issue 2.4
June 1999
Features
●
●
●
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Odering Information
Advanced Resynchronisation techniques to negate
loop delay effects
CMOS compataible output capability
Multi-Modulus division
Available as DESC SMD 5962-9208901MPA
SP8782 A DG
SP8782 B MP
DES9208901/AC/DGAZ(SMD)
Description
Absolute Maximum Ratings
The SP8782 is a multi-modulus divider which divides by 16/
17 when the Ratio Select input is low and by 32/33 when
theRatio Select input is high. When high, the modulus Control
input selects the lower division ratio (16 or 32) and the higher
ratio (17 or 33) when it is low.
Supply Voltage
Clock input level
Junction temperature
Storage temperature range:
SP8782A
SP8782B
6V
2.5V p-p
+175°C
-55°C to +150°C
-55°C to +125°C
The device uses resynchronisation techniques to reduce the
effects of propagation delays in frequency synthesis.
The SP8782A (ceramic DIL package) is characterised over
the full military temperature range of -55°C to +125°C, the
SP8782B (miniature plastic DIL package) over the industrial
range of -40°C to+85°C.
RATIO
SELECT
VCC
2
1
CLOCK INPUT
CLOCK INPUT
2
7
÷ 16/17
÷ 32/33
3
4
VEE
OUTPUT
5
MODULUS
CONTROL
INPUT
Figure 1 Functional Diagram
1
SP8782A & B
RATIO SELECT
1
8
VCC
CLOCK INPUT
2
7
OUTPUT
CLOCK INPUT
3
6
NC
VEE
4
5
MODULUS CONTROL
DG 8
RATIO SELECT
1
8
VCC
CLOCK INPUT
2
7
OUTPUT
CLOCK INPUT
3
6
NC
VEE
4
5
MODULUS CONTROL
MP 8
Figure 2 Typical Pin Connections
Electrical Characteristics
Unless otherwise stated, the Electrical Characteristics are guaranteed over the specified supply, frequency and
temperature range.
Supply Voltage, VCC = +4V to +5.5V, VEE = 0V
Temperature Tamb= -55°C to +125°C, (SP8782A), -40°C to +85° C (SP8782B)
Characteristic
Pin
Value
Min
Maximum frequency
(sinewave input)
Minimum frequency
Min Slew rate for low frequency operation
Power Supply current, ICC
Output low voltage
Output high voltage
Modulus control input high voltage
Modulus control input low voltage
Modulus control input high current
Modulus control input low current
Ratio select input high voltage
Ratio selected input low voltage
Ratio select input current
Clock to output propagation Delay
Set-up time, ts
Release time,tr
2, 3
2, 3
2, 3
8
7
7
5
5
5
5
1
1
1
2,3,7
5,7
5,7
Conditions
Max
1
0
VCC-1.4
0.7VCC
0
0.6
-0.6
0.6VCC
0
-10
3
3
50
100
60
1.7
VCC
VCC
0.3VCC
1.2
-1.2
VCC
0.4VCC
10
3
Units
GHz
Input = 200-1200mVp-p
MHz
V/µs
mA
V
V
V
V
mA
mA
V
V
µA
ns
ns
ns
Input = 400-1200mVp-p
Output unloaded, VCC=5.5V
At driver end of 3kΩ resistor
At driver end of 3kΩ resistor
Via 3kΩ resistor to VCC
Via 3kΩ resistor to VCC
See note 1 and Fig. 3a
See note 2 and Fig. 3b
Notes: 1. The set-up time ts is defined as the minimum time that can elapse between L→H transition of the
modulus control input and the next L→H output transition to ensure that the ÷ 16 (32) mode is obtained.
2. The release time tr is defined as the minimum time that can elapse between H→L transition of the modulus
control input and the next L→H output transition to ensure that the ÷ 17 (33) mode is obtained.
2
SP8782A & B
Modulus control
input
Ratio select input
0
1
0
÷17
÷33
1
÷16
÷32
Table 1 Truth table for control inputs
CLOCK INPUT
ts
MODULUS
CONTROL INPUT
ts
DON’T CARE
DON’T CARE
8 (16)
9 (17)
8 (16)
OUTPUT
8 (16)
DIVIDE-BY-16 (32) MODE
ESTABLISHED
Fig.
3a Setting
Figure
3a Setting
divide - bydivide-by-16
- 16 (32 mode) (32) mode
CLOCK INPUT
tr
MODULUS
CONTROL INPUT
tr
DON’T CARE
DON’T CARE
8 (16)
OUTPUT
9 (17)
8 (16)
EXTRA
PULSE
8 (16)
DIVIDE-BY-17 (33) MODE
ESTABLISHED
Figure 3b Setting divide - by - 17 (33 mode)
Figure 3 Timing diagrams
3
SP8782A & B
1600
INPUT AMPLITUDE (mV p-p)
1400
1200
1000
* Tested as specified
800
GUARANTEED
OPERATING
WINDOW
600
in tableas
of Electrical
*Tested
speci
*
Characteristics
in
table of E
Characteristi
400
200
0
0
200
400
INPUT FREQUENCY (MHz)
600
800
Figure 4 Typical input characteristics
RATIO SELECT
1
6
8
V CC
10n
MODULUS
CONTROL
INPUT
3k
5
7
OUTPUT
1n
2
CLOCK
INPUT
NOTES
1. Pin 6 is grounded to improve
isolation
between the outputand the
NOTES
modulus control input.
1n
3kΩ
resistor
on
pin5 reduces
1. 2.The
Pin 6
is grounded
to improve
the amplitude
of the moduluscontrol
isolation
the output
and
signal
to between
minimise
radiation.
the modulus control input
2.
The 3kΩ resistor on pin 5 reduces
the amplitude of the modulus control
signal to minimise radiation
DIVIDE BY
DIVIDE
BY
32/33
16/17 16/17
OR OR
32/33
3
Figure 5 Typical application showing interfacing
4
4 V EE
SP8782A & B
j1
j 0.5
j2
j 0.2
j5
1100
0
0.2
0.5
1
5
2
1000
200
800
2 j5
2 j 0.2
600
400
2 j2
2 j 0.5
2 j1
Figure 6 Typical input impedance. Test conditions: supply voltage =5V, ambient temperature =25°C,
frequencies in MHz, impedances normalised to 50Ω
5
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