ml12011 Lansdale Semiconductor, Inc., ml12011 Datasheet

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ml12011

Manufacturer Part Number
ml12011
Description
Mecl Pll Components Dual Modulus Prescaler
Manufacturer
Lansdale Semiconductor, Inc.
Datasheet
1.ML12011.pdf (14 pages)
Legacy Device: Motorola MC12009, MC12011
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.
Page 1 of 14
These devices are two–modulus prescalers which will divide by
• ML12009 480 MHz (÷5/6), ML12011 550 MHz (÷8/9)
• 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 (V CCO ),
Pin 6 (MTTL V CC ), Pin 16 (V CC ), and ground Pin 8
(V EE ). When using –5.2 V supply, ground Pin 1 (V CCO ),
Pin 6 (MTTL V CC ), and Pin 16 (V CC ) and apply –5.2 V to
Pin 8 (V EE ). If the translator is not required, Pin 6 may be
left open to conserve DC power drain.
MAXIMUM RATINGS
(Ratings above which device life may be impaired)
Power Supply Voltage
Input Voltage
Output Source Current
Storage Temperature Range
(Recommended Maximum Ratings above which performance may be
degraded)
Operating Temperature Range
DC Fan–Out (Note 1)
NOTES: 1. AC fan–out is limited by desired system performance.
(Gates and Flip–Flops)
(V CC = 0)
(V CC = 0)
Continuous
Surge
ML12009, ML12011
Characteristic
Symbol
V EE
T stg
V in
T A
I O
n
–65 to 175
–30 to 85
0 to V EE
Rating
–8.0
70
100
50
www.lansdale.com
mAdc
Unit
Vdc
Vdc
°C
°C
ML12009
ML12011
MECL PLL Components Dual
Modulus Prescaler
CROSS REFERENCE/ORDERING INFORMATION
Note: Lansdale lead free (Pb) product, as it
becomes available, will be identified by a part
number prefix change from ML to MLE.
PACKAGE
P DIP 16
P DIP 16
SOIC 16
SO 16W
MTTL Output
MTTL V CC
V CCO
V EE
( – )
( + )
PIN CONNECTIONS
Q
Q
PLASTIC PACKAGE
PLASTIC PACKAGE
16
16
1
2
3
4
5
6
7
8
P DIP 16 = EP
MOTOROLA
SO 16 = -5P
CASE 751B
MC12009P
MC12009D
MC12011P
MC12011D
CASE 648
(Top View)
1
1
16
15
14
13
12
10
11
9
V CC
Clock
V BB
E1 MECL
E2 MECL
E3 MECL
E4 MECL
E5 MECL
ML12009-5P
ML12011-5P
ML12009EP
ML12011EP
LANSDALE
Issue A

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ml12011 Summary of contents

Page 1

... Motorola MC12014 Counter Control Logic. In addition, there is a buffered clock input and MECL bias voltage source. • ML12009 480 MHz (÷5/6), ML12011 550 MHz (÷8/9) • MECL to MTTL Translator on Chip • MECL and MTTL Enable Inputs • ...

Page 2

... ML12009, ML12011 MTTL E5 9 MTTL E4 10 MECL E3 11 MECL E2 12 MECL E1 13 MTTL E5 9 MTTL E4 10 MECL E3 11 MECL E2 12 MECL E1 13 Phase Detector f ref MC4044/ML4044 Page Figure 1. Logic Diagrams ML12009 Recommended Circuitry For ac coupled Inputs. 15 1000 pF 1 ...

Page 3

... ML12009, ML12011 Figure 2b Generic block diagram showing prescaler connection to PLL Device Prescaler ML12009/11 VCO Figure 2b shows a generic block diagram of connecting a prescaler to a PLL device that supports dual modulus controls. Applicataion not AN535 describes using a two–modulus prescaler technique. By using prescaler higher frequencies can be achieved than by a single CMOS PLL device ...

Page 4

... ML12009, ML12011 ELECTRICAL CHARACTERISTICS Characteristic Power Supply Drain Current Input Current Leakage Current Reference Voltage Logic ‘1’ Output Voltage Logic ‘0’ Output Voltage Logic ‘1’ Threshold Voltage Logic ‘0’ Threshold Voltage Short Circuit Current 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 ...

Page 5

... ML12009, ML12011 ELECTRICAL CHARACTERISTICS Characteristic Power Supply Drain Current Input Current Leakage Current Reference Voltage Logic ‘1’ Output Voltage Logic ‘0’ Output Voltage Logic ‘1’ Threshold Voltage Logic ‘0’ Threshold Voltage Short Circuit Current 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 ...

Page 6

... ML12009, ML12011 ELECTRICAL CHARACTERISTICS Characteristic Power Supply Drain Current Input Current Leakage Current Reference Voltage Logic ‘1’ Output Voltage Logic ‘0’ Output Voltage Logic ‘1’ Threshold Voltage Logic ‘0’ Threshold Voltage Short Circuit Current 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 ...

Page 7

... ML12009, ML12011 ELECTRICAL CHARACTERISTICS Characteristic Power Supply Drain Current Input Current Leakage Current Reference Voltage Logic ‘1’ Output Voltage Logic ‘0’ Output Voltage Logic ‘1’ Threshold Voltage Logic ‘0’ Threshold Voltage Short Circuit Current 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 ...

Page 8

... ML12009, ML12011 ELECTRICAL CHARACTERISTICS Characteristic Power Supply Drain Current Input Current Leakage Current Reference Voltage Logic ‘1’ Output Voltage Logic ‘0’ Output Voltage Logic ‘1’ Threshold Voltage Logic ‘0’ Threshold Voltage Short Circuit Current 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 ...

Page 9

... ML12009, ML12011 ELECTRICAL CHARACTERISTICS Characteristic Power Supply Drain Current Input Current Leakage Current Reference Voltage Logic ‘1’ Output Voltage Logic ‘0’ Output Voltage Logic ‘1’ Threshold Voltage Logic ‘0’ Threshold Voltage Short Circuit Current 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 ...

Page 10

... ML12009, ML12011 SWITCHING CHARACTERISTICS Pin Pin Under Under Characteristic Symbol Test Propagation Delay t 2 15+ 2+ (See Figures 3 and 15+ 2– 5– 7– Setup Time t 11 setup1 (See Figures 4 and setup2 Release Time t 11 rel1 (See Figures 4 and 5) ...

Page 11

... ML12009, ML12011 Pulse Generator #1 Pulse Generator #2 MC10109 or equiv. A All Pulse Generators are EH 137 or equiv. Pulse Generators 1 and 2: PRF = 10 MHz PW = 50% Duty Cycle – = 2.0 ± 0.2 ns Pulse Generator 3: PRF = 2.0 MHz PW = 50% Duty Cycle – = 5.0 ± 0.5 ns Page Figure 5. AC Test Circuit µ ...

Page 12

... ML12009, ML12011 Q (Pin 2) Q (Pin 2) Page Figure 6. Maximum Frequency Test Circuit 0.1 µ (To Scope 0.1 µ 1 0.1 µF 0.1 µF Unused output connected Ω resistor to ground DIVIDE BY 6 800 mV Clock Input 3 Cycles 3 Cycles DIVIDE BY 9 ...

Page 13

... Proper VHF termination techniques should be followed when the clock is separated from the prescaler by any appreciable distance. Page Figure 7. State Diagram DIVIDE BY 5/6 (ML12009/ML12509) 1 111 1 1 Enable = 110 DIVIDE BY 8/9 (ML12011) 0101 1110 Enable = 1 1 ...

Page 14

... ISSUE J 9 –B– 0.25 (0.010 DIP PLASTIC PACKAGE (ML12009EP, ML12011EP) CASE 648–08 ISSUE SEATING –T– PLANE 0.25 (0.010 www.lansdale.com LANSDALE Semiconductor, Inc. NOTES: 1 ...

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