Obsolescence Notice
This product is obsolete.
This information is available for your
convenience only.
For more information on
Zarlink’s obsolete products and
replacement product lists, please visit
http://products.zarlink.com/obsolete_products/
THIS DOCUMENT IS FOR MAINTENANCE
PURPOSES ONLY AND IS NOT
RECOMMENDED FOR NEW DESIGNS
ADVANCE INFORMATION
DS3658-1·2
SP8602
500MHz42
4
SP8604
300MHz42
4
The SP8602 and SP8604 are emitter coupled logic dividers
which feature ECL10K compatible outputs when used with
external pulldown resistors. The inputs are AC coupled.
V
EE
(CASE)
FEATURES
s
ECL Compatible Outputs
s
AC-Coupled Inputs (Internal Bias)
QUICK REFERENCE DATA
OUTPUT
7 8
OUTPUT
6
5 4
V
CC
(0V)
NC
3
1
2
CLOCK INPUT
CLOCK INPUT
s
Supply Voltage:
25·2V
s
Power Consumption: 85mW
s
Temperature Range:
255°C
to
1125°C
(A Grade)
230°C
to
170°C
(B Grade)
INTERNAL BIAS
DECOUPLING
CM8
Fig. 1 Pin connections - bottom view
ABSOLUTE MAXIMUM RATINGS
Supply voltage, V
EE
Output current
Storage temperature range
Max. junction temperature
Max. clock input voltage
28V
10mA
265°C
to
1150°C
1175°C
2·5V p-p
ORDERING INFORMATION
SP8602 A CM
SP8602 B CM
SP8604 A CM
SP8604 B CM
5962-92059 (SMD)
(SP8602)
INTERNAL BIAS
DECOUPLING
3
V
CC
(0V)
5
CLOCK INPUT
CLOCK INPUT
1
2
DIVIDE BY
2
6
7
OUTPUT
OUTPUT
8
V
EE
Fig. 2 Functional diagram
SP8602/4
ELECTRICAL CHARACTERISTICS
Unless otherwise stated, the Electrical Characteristics are guaranteed over specified supply, frequency and temperature range
Supply voltage, V
CC
= 0V, V
EE
=
25·2V 6
0·25V
Temperature, T
AMB
=
255°C
to
1125°C
(A Grade),
230°C
to
170°C
(B Grade)
Value
Characteristic
Maximum frequency (sinewave input)
Minimum frequency (sinewave input)
Power supply current
Output low voltage
Output high voltage
Minimum output swing
Symbol
f
MAX
f
MIN
I
EE
V
OL
V
OH
V
OUT
21·8
20·85
400
Min.
500
300
40
18
21·4
20·7
Max.
Units
MHz
MHz
MHz
mA
V
V
mV
Type
SP8602
SP8604
Both
Both
Both
Both
Both
Conditions
Input = 400-800mV p-p
Input = 400-800mV p-p
Input = 400-800mV p-p
V
EE
=
25·2V,
outputs
unloaded
V
EE
=
25·2V
V
EE
=
25·2V
V
EE
=
25·2V
Notes
3
3
NOTES
1. The temperature coefficients of V
OH
=
11·63mV/°C,
and V
OL
=
10·34mV/°C
but these are not tested.
2. The test configuration for dynamic testing is shown in Fig.5.
3. Tested at 25°C only.
SP8604
INPUT AMPLITUDE (mV p-p)
1000
800
600
400
200
0
0
SP8602
T
AMB
=
255°C
TO
1125°C
(A GRADE)
T
AMB
=
230°C
TO
170°C
(B GRADE)
GUARANTEED
*
OPERATING
WINDOW
*
Tested as specified
in table of Electrical
Characteristics
100
200
300
INPUT FREQUENCY (MHz)
400
500
Fig. 3 Typical input characteristics of SP8602 and SP8604
j1
j
0.5
j2
j
0.2
j5
0
0.2
0.5
1
2
5
50
100
2
j
5
2
j
0.2
200
300
500
400
2
j
0.5
2
j
1
2
j
2
Fig. 4 Typical input impedance. Test conditions: supply voltage =
25·2V,
ambient
temperature = 25°C, frequencies in MHz, Impedances normalised to 50Ω
2
SP8602/4
OPERATING NOTES
1. The clock inputs (pins 1 and 2) can be driven single ended or
differentially and should be capacitively coupled to the signal
source. The input signal path is completed by connecting a
capacitor from the internal bias decoupling, pin 3, to ground.
2. In the absence of a signal the device will self-oscillate. If this is
undesirable, it may be prevented by connecting a 15kΩ resistor
from the unused input to V
EE
. This will reduce the input sensitivity
by approximately 100mV.
3. The circuit will operate down to DC but slew rate must be better
than 100V/µs.
4. The outputs are compatible with ECLII. There is an internal load
of 4kΩ on each output. The outputs can be interfaced to ECL10K
by the addition of 1·5kΩ pulldown resistors from the outputs to V
EE
to increase output voltage swing.
5. Input impedance is a function of frequency, See Fig. 4.
6. All components should be suitable for the frequency in use.
20
TO SAMPLING
SCOPE
FROM GENERATOR
INPUT 1
FROM GENERATOR
INPUT 2
33
TO SAMPLING
SCOPE
33
20
1n
33
33
1n
1n
1
1n
3
2
5
6
450
450
10n
10n
TO SAMPLING
SCOPE
DUT
8
7
3·5k
3·5k
V
EE
Fig. 5 Test circuit
1n
INPUT
1
5
6
ECL OUTPUT
440
440
DIVIDE BY
2
7
15k
1n
2
BIAS
4k
4k
1·5k
8
V
EE
1n
1·5k
Fig. 6 Typical application showing interfacing
3
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