LANSDALE ML12509

ML12509
ML12511
ML12513
MECL PLL Components
Dual Modulus Prescaler
Legacy Device: Motorola 12509, 12511, 12513
These devices are two–modulus prescalers which will divide by
5 and 6, 8 and 9, respectively. A MECL–to–MTTL translator is
provided to interface directly with the Motorola MC12014
Counter Control Logic. In addition, there is a buffered clock input
and MECL bias voltage source.
• ML12509 480 MHz (÷5/6), ML12511 550 MHz (÷8/9),
ML12513 550 MHz (÷10/11)
• MECL to MTTL Translator on Chip
• MECL and MTTL Enable Inputs
• 5.0 or –5.2 V Operation*
• Buffered Clock Input — Series Input RC Typ, 20 Ω and 4.0 pF
• VBB Reference Voltage
• 310 mW (Typ)
* When using a 5.0 V supply, apply 5.0 V to Pin 1 (VCCO),
Pin 6 (MTTL VCC), Pin 16 (VCC), and ground Pin 8
(VEE). When using –5.2 V supply, ground Pin 1 (VCCO),
Pin 6 (MTTL VCC), and Pin 16 (VCC) and apply –5.2 V to
Pin 8 (VEE). If the translator is not required, Pin 6 may be
left open to conserve DC power drain.
MAXIMUM RATINGS
Characteristic
Symbol
Rating
Unit
16
1
CERDIP 16 = E
CERAMIC PACKAGE
CASE 620
CROSS REFERENCE/ORDERING INFORMATION
PACKAGE
MOTOROLA
LANSDALE
CERDIP 16
CERDIP 16
CERDIP 16
12509/BEA
12511/BEA
12513/BEA
ML12509/BEA
ML12511/BEA
ML12513/BEA
PIN CONNECTIONS
16 VCC
15 Clock
VCCO
Q
1
Q
(–)
3
(+)
5
MTTL VCC
6
MTTL Output
7
11 E3 MECL
10 E4 MECL
VEE
8
9 E5 MECL
2
14 VBB
13 E1 MECL
12 E2 MECL
4
(Top View)
(Ratings above which device life may be impaired)
Power Supply Voltage
(VCC = 0)
VEE
–8.0
Vdc
Input Voltage
(VCC = 0)
Vin
0 to VEE
Vdc
Output Source Current
Continuous
Surge
IO
Storage Temperature Range
mAdc
50
100
Tstg
–65 to 175
°C
(Recommended Maximum Ratings above which performance may be
degraded)
Operating Temperature Range
DC Fan–Out (Note 1)
(Gates and Flip–Flops)
TA
–55 to 125
°C
n
70
—
NOTES: 1. AC fan–out is limited by desired system performance.
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ELECTRICAL CHARACTERISTICS
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ELECTRICAL CHARACTERISTICS
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SWITCHING CHARACTERISTICS
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Figure 5. AC Test Circuit
Vin
25 µF
50
Pulse
Generator
#1
Vout (Scope Channel B)
VCC = 2.0 V
100
Vin
50
Pulse
Generator
#2
100
Vin
1
6
13
E1
12
E2
11
E3
10
E4
9
E5
15
C
0.1 µF
16
Vout
2
Q
3
Vout
Q
VBB
14
950
Pulse
Generator
#3
50
5
+
4
–
MECL
to
MTTL
Trans–
lator
1950
7
8
0.1 µF
Vin
(Scope Channel A)
Pulse
Generator
#4
CT
VEE = –3.0 V
MC10109 or equiv.
A
All Pulse Generators are EH 137 or equiv.
Pulse Generators 1, 2 and 4:
PRF = 10 MHz
PW = 50% Duty Cycle
t + = t – = 2.0 ± 0.2 ns
Pulse Generator 3:
PRF = 2.0 MHz
PW = 50% Duty Cycle
t + = t – = 5.0 ± 0.5 ns
50
VEE = –3.0 V
All resistors are +1%.
All input and output cables to the scope are equal lengths of 50 Ω coaxial cable.
The 1950 Ω resistor at Pin 7 and the scope termination impedance constitute a 40 :1 attenuator probe.
CT = 15 pF = total parasitic capacitance which includes probe, wiring, and load capacitance.
Unused output connected to a 50 Ω resistor to ground.
NOTES: 1. Test outputs of the device must be tested by sequencing through the truth table. All input, power supply and
ground voltages must be maintained between tests. The clock input is the waveform shown.
2. In addition to meeting the output levels specified, the device must divide by 5 or 8 during this test. The clock
input is the waveform shown.
3. In addition to meeting the output levels specified, the device must divide by 6 or 9 during this test. The clock
input is the waveform shown.
Clock Input
VIHmax
VILmin
Each MECL 10,000 series circuit has been designed to meet the dc specifications shown in the test table, after thermal equilibrium has been
established. The circuit is in a test socket or mounted on a printed circuit board and transverse air flow greater than 500 linear fpm is maintained.
Outputs are terminated through a 50 Ω resistor to –2.0 V. Test procedures are shown for only one gate. The other gates are tested in the same
manner.
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Figure 3. AC Voltage Waveforms
Pulse
Generator
4 and 1
VIHmin
80%
50%
20%
VILmin
t++
Q (Pin 2)
50%
t+ –
50%
Q (Pin 3)
+ In
50%
MTTL
Out
t++
t––
–1.5 V
Figure 4. Setup and Release Time Waveforms
Pulse
50
Generator
%
1 tsetup1
Pulse
Generator
tsetup2
2
Pulse
Generator
+1.5 V
3
Q (Pin 2)
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80%
20%
80%
50%
20%
90%
10%
Divide by 5 — ML12509
Divide by 8 — ML12511
Divide by 10 — ML12513
VIHmin
VILmin
VIHmin
VILmin
0V
VEE
Pulse
Generator
1
Pulse
50%
Generator t
rel2
2
Pulse
Generator
3
–1.5 V
Q (Pin 2)
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80%
20%
50%
trel1
80%
20%
90%
10%
VIHmin
VILmin
VIHmin
VILmin
0V
VEE
Divide by 6 — ML12509
Divide by 9 — ML12511
Divide by 11 — ML12513
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Figure 6. Maximum Frequency Test Circuit
Vout
VCC = 2.0 V
0.1 µF
1
to
Scope
5.0 µF
16
13
E1
Vin
12
VEE
(To Scope)
Q
E2
2
11
E3
10
E4
9
E5
0.1 µF
Q
15
3
C
1.0 k
14
VBB
0.1 µF
8
0.1 µF
VEE = –3.0 V
Unused output connected to a 50 Ω resistor to ground
DIVIDE BY 6
800 mV
Clock
Input
850 mV typ
Q (Pin 2)
3 Cycles
3 Cycles
DIVIDE BY 9
800 mV
Clock
Input
850 mV typ
Q (Pin 2)
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5 Cycles
4 Cycles
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OUTLINE DIMENSIONS
CERDIP 16 = E
CERAMIC PACKAGE
(ML12509/BEA, ML12511/BEA, ML12513/BEA)
CASE 620
Lansdale Semiconductor reserves the right to make changes without further notice to any products herein to improve reliability, function or design. Lansdale does not assume any liability arising out of the application or use of any product or circuit
described herein; neither does it convey any license under its patent rights nor the rights of others. “Typical” parameters which
may be provided in Lansdale data sheets and/or specifications can vary in different applications, and actual performance may
vary over time. All operating parameters, including “Typicals” must be validated for each customer application by the customer’s
technical experts. Lansdale Semiconductor is a registered trademark of Lansdale Semiconductor, Inc.
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