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| Order this document by MC12009/D Dual Modulus Prescaler These devices are two-modulus prescalers which will divide by 5 and 6, 8 and 9, and 10 and 11, respectively. A MECL-to-MTTL translator is provided to interface directly with the MC12014 Counter Control Logic. In addition, there is a buffered clock input and MECL bias voltage source. * MC12009 480 MHz (B5/6), MC12011 550 MHz (B8/9), MC12013 550 MHz (B10/11) * MECL to MTTL Translator on Chip MC12009 MC12011 MC12013 MECL PLL COMPONENTS DUAL MODULUS PRESCALER SEMICONDUCTOR TECHNICAL DATA * * * * * MECL and MTTL Enable Inputs 5.0 or -5.2 V Operation* Buffered Clock Input -- Series Input RC Typ, 20 Ohms and 4 pF VBB Reference Voltage 310 Milliwatts (Typ) * When using a 5.0 V supply, apply 5.0 V to Pin 1 (VCCO ), 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. 16 1 P SUFFIX PLASTIC PACKAGE CASE 648 PIN CONNECTIONS VCCO Q 1 2 3 4 5 6 7 8 (Top View) 16 VCC 15 Clock 14 VBB 13 E1 MECL 12 E2 MECL 11 E3 MECL 10 E4 MECL 9 E5 MECL MAXIMUM RATINGS Characteristic Symbol Rating Unit Q (-) (+) MTTL VCC -8.0 0 to VEE Vdc Vdc mAdc MTTL Output VEE (Ratings above which device life may be impaired) Power Supply Voltage (VCC = 0) Input Voltage (VCC = 0) Output Source Current Continuous Surge Storage Temperature Range VEE Vin IO t50 t100 -65 to +175 Tstg C (Recommended Maximum Ratings above which performance may be degraded) Operating Temperature Range MC12009, MC12011, MC12013 DC Fan-Out (Note 1) (Gates and Flip-Flops) TA n -30 to +85 70 C Device -- ORDERING INFORMATION Operating Temperature Range Package MC12009P MC12011P MC12013P TA = - 35 to +85C Plastic NOTES: 1. AC fan-out is limited by desired system performance. 2. ESD data available upon request. (c) Motorola, Inc. 1997 Rev 2 MC12009 MC12011 MC12013 Figure 1. Logic Diagrams MC12009 MTTL E5 9 MTTL E4 10 MECL E3 11 MECL E2 12 MECL E1 13 D Q1 D Q2 D Q3 C Q1 C C Q3 VBB MECL to MTTL Trans- lator Recommended Circuitry For ac coupled Inputs. 15 1000 pF Clock Input 1k 0.1 F 14 3 Q3 2 Q3 54 +- 7 MTTL Out MC12011 MTTL E5 9 MTTL E4 10 MECL E3 11 MECL E2 12 MECL E1 13 15 D Q1 D Q2 D Q3 C C C VBB 0.1 F 14 Q4 Toggle Flip Flop C Q4 MECL to MTTL Trans- lator Recommended Circuitry For ac coupled Inputs. 1000 pF Clock Input 1k 32 Q4 Q4 54 +- 7 MTTL Out MC12013 / 10 for one or all E1 thru E5 high / 11 for all E1 thru E5 low Tie unused gate inputs low. MTTL E5 9 MTTL E4 10 MECL E3 11 MECL E2 12 MECL E1 13 Pull-down resistors required on Pins 2, 3 when not connected to translator. Basic IC Capability: / 10/11 15 1000 pF Clock Input 1k C C C VBB 0.1 F 14 3254 Q4 Q4 + - 7 MTTL Out D Q1 D Q2 D Q3 Q4 Toggle Flip Flop C Q4 MECL to MTTL Trans- lator Recommended Circuitry For ac coupled Inputs. Figure 2. Typical Frequency Synthesizer Application fref Phase Detector MC4044 Low-Pass Filter Voltage-Controlled Oscillator MC1648 fout Modulus Enable Line Counter Control Logic MC12014 Zero Detect Line fout MC12009 MC12011 MC12013 BNp Programmable Counter MC4016 Counter Reset Line BA Programmable Counter MC4016 2 MOTOROLA RF/IF DEVICE DATA MC12009 MC12011 MC12013 ELECTRICAL CHARACTERISTICS (Supply Voltage = -5.2 V, unless otherwise noted.) Test Limits Pin Pi Under Test 8 6 15 11 12 13 4 5 5 9 10 15 11 12 13 9 10 14 2 3 7 2 3 7 2 3 2 3 -1.120 -1.120 -1.655 -1.655 -1.100 -1.100 -2.8 -1.990 -1.990 -1.675 -1.675 -4.26 -1.020 -1.020 -1.630 -1.630 -0.890 -0.890 -10 -10 -10 -10 -1.6 -1.6 1.7 1.7 0.7 -30C Min -88 5.2 375 375 375 375 6.0 6.0 3.0 100 100 -10 -10 -10 -10 -1.6 -1.6 -1.360 -1.000 -1.000 -2.6 -1.950 -1.950 -1.650 -1.650 -4.40 -0.950 -0.950 -1.595 -1.595 -1.160 -0.810 -0.810 -0.930 -0.930 -2.4 -1.925 -1.925 -1.615 -1.615 -4.48 Vdc Vdc mAdc VIHmax VILmin Vdc -0.700 -0.700 2.0 2.0 1.0 Max Min -80 5.2 250 250 250 250 6.0 6.0 3.0 100 100 -10 -10 -10 -10 -1.6 -1.6 2.0 2.0 1.0 +25C Max Min -80 5.2 250 250 250 250 6.4 6.4 3.6 100 100 Adc Adc +85C Max Unit mAdc mAdc Adc Characteristic Power Supply Drain Current pp y Symbol ICC1 ICC2 IinH1 Input Current IinH2 IinH3 IinH4 Leakage Current IinL1 mAdc IinL2 Reference Voltage Logic `1' Output Voltage VBB VOH1 (Note 1) VOH2 Logic `0' Output Voltage VOL1 (Note 1) VOL2 Logic `1' Threshold Voltage Logic `0' Threshold Voltage VOHA (Note 2) VOLA (Note 3) mAdc Vdc Vdc Short Circuit Current IOS 7 -65 -20 -65 -20 -65 -20 1. Test outputs of the device must be tested by sequencing through the truth table. All input, power supply and Clock Input 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, 8 or 10 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, 9 or 11 during this test. The clock input is the waveform shown. 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 resistor to -2.0 V. Test procedures are shown for only one gate. The other gates are tested in the same manner. MOTOROLA RF/IF DEVICE DATA 3 MC12009 MC12011 MC12013 ELECTRICAL CHARACTERISTICS (Supply Voltage = -5.2 V, unless otherwise noted.) (continued) TEST VOLTAGE/CURRENT VALUES Volts @ Test Temperature -30C +25C +85C Pin Under Test 8 6 15 11 12 13 4 5 5 9 10 15 11 12 13 9 10 14 2 3 7 2 3 7 2 3 2 3 4 5 11,12,13 11,12,13 4 11,12,13 11,12,13 5 11,12,13 11,12,13 11,12,13 11,12,13 7 Clock Input VIHmax VILmin 9,10 9,10 9,10 9,10 9 10 4 15 11 12 13 5 5 4 4 4 5 9 10 5 VIHmax -0.890 -0.810 -0.700 VILmin -1.990 -1.950 -1.925 VIHAmin -1.205 -1.105 -1.035 VILAmax -1.500 -1.475 -1.440 VIH -2.8 -2.8 -2.8 VILH -4.7 -4.7 -4.7 TEST VOLTAGE APPLIED TO PINS LISTED BELOW VIHmax VILmin VIHAmin VILAmax VIH VIL Gnd Gd 1,16 6 1,16 1,16 1,16 1,16 6 6 6 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 6 1,16 1,16 6 1,16 1,16 1,16 1,16 6 Characteristic Power Supply Drain Current Symbol ICC1 ICC2 Input Current IinH1 IinH2 IinH3 IinH4 Leakage Current IinL1 IinL2 Reference Voltage Logic `1' Output Voltage VBB VOH1 (Note 1.) VOH2 Logic `0' Output Voltage VOL1 (Note 1.) VOL2 Logic `1' Threshold Voltage Logic `0' Threshold Voltage VOHA (Note 2.) VOLA (Note 3.) Short Circuit Current IOS 7 5 4 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, 8 or 10 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, 9 or 11 during this test. The clock input is the waveform shown. 4 MOTOROLA RF/IF DEVICE DATA MC12009 MC12011 MC12013 ELECTRICAL CHARACTERISTICS (Supply Voltage = -5.2 V, unless otherwise noted.) (continued) TEST VOLTAGE/CURRENT VALUES Volts @ Test Temperature -30C +25C +85C Pin Under Test 8 6 15 11 12 13 4 5 5 9 10 15 11 12 13 9 10 14 2 3 7 2 3 7 2 3 2 3 9,10 9,10 9,10 9,10 9,10 9,10 9,10 VIHT -3.2 -3.2 -3.2 VILT -4.4 -4.4 -4.4 VEE -5.2 -5.2 -5.2 IL -0.25 -0.25 -0.25 mA IOL 16 16 16 IOH -0.40 -0.40 -0.40 TEST VOLTAGE APPLIED TO PINS LISTED BELOW VIHT VILT VEE 8 8 8 8 8 8 8 8 8 8 8 8,15 8,11 8,12 8,13 8 8 8 8 8 8 8 8 8 8 8 8 8 7 7 14 IL IOL IOH Gnd Gd 1,16 6 1,16 1,16 1,16 1,16 6 6 6 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 6 1,16 1,16 6 1,16 1,16 1,16 1,16 6 Clock Input VIHmax VILmin Characteristic Power Supply Drain Current Symbol ICC1 ICC2 Input Current IinH1 IinH2 IinH3 IinH4 Leakage Current IinL1 IinL2 Reference Voltage Logic `1' Output Voltage VBB VOH1 (Note 1.) VOH2 Logic `0' Output Voltage VOL1 (Note 1.) VOL2 Logic `1' Threshold Voltage Logic `0' Threshold Voltage VOHA (Note 2.) VOLA (Note 3.) Short Circuit Current IOS 7 8 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, 8 or 10 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, 9 or 11 during this test. The clock input is the waveform shown. MOTOROLA RF/IF DEVICE DATA 5 MC12009 MC12011 MC12013 ELECTRICAL CHARACTERISTICS (Supply Voltage = 5.0 V, unless otherwise noted.) Test Limits Pin Pi Under Test 8 6 15 11 12 13 4 5 5 9 10 15 11 12 13 9 10 14 2 3 7 2 3 7 2 3 2 3 3.880 3.880 3.405 3.405 3.900 3.900 2.4 3.070 3.070 3.385 3.385 0.94 3.980 3.980 3.430 3.430 4.110 4.110 -10 -10 -10 -10 -1.6 -1.6 1.7 1.7 0.7 -30C Min -88 5.2 375 375 375 375 6.0 6.0 3.0 2.0 2.0 1.0 100 100 -10 -10 -10 -10 -1.6 -1.6 3.67 4.000 4.000 2.6 3.110 3.110 3.410 3.410 0.80 4.050 4.050 3.465 3.465 3.87 4.190 4.190 4.070 4.070 2.8 3.135 3.135 3.445 3.445 0.72 Vdc Vdc mAdc VIHmax VILmin Vdc 4.300 4.300 Max Min -80 5.2 250 250 250 250 6.0 6.0 3.0 100 100 -10 -10 -10 -10 -1.6 -1.6 2.0 2.0 1.0 +25C Max Min -80 5.2 250 250 250 250 6.4 6.4 3.6 100 100 Adc Adc +85C Max Unit mAdc mAdc Adc Characteristic Power Supply Drain Current pp y Symbol ICC1 ICC2 IinH1 Input Current IinH2 IinH3 IinH4 Leakage Current IinL1 mAdc IinL2 Reference Voltage Logic `1' Output Voltage VBB VOH1 (Note 4.) VOH2 Logic `0' Output Voltage VOL1 (Note 4.) VOL2 Logic `1' Threshold Voltage Logic `0' Threshold Voltage VOHA (Note 5.) VOLA (Note 6.) mAdc Vdc Vdc Short Circuit Current IOS 7 -65 -20 -65 -20 -65 -20 4. Test outputs of the device must be tested by sequencing through the truth table. All input, power supply and Clock Input ground voltages must be maintained between tests. The clock input is the waveform shown. 5. In addition to meeting the output levels specified, the device must divide by 5, 8 or 10 during this test. The clock input is the waveform shown. 6. In addition to meeting the output levels specified, the device must divide by 6, 9 or 11 during this test. The clock input is the waveform shown. 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 resistor to -2.0 V. Test procedures are shown for only one gate. The other gates are tested in the same manner. 6 MOTOROLA RF/IF DEVICE DATA MC12009 MC12011 MC12013 ELECTRICAL CHARACTERISTICS (Supply Voltage = 5.0 V, unless otherwise noted.) (continued) TEST VOLTAGE/CURRENT VALUES Volts @ Test Temperature -30C +25C +85C Pin Under Test 8 6 15 11 12 13 4 5 5 9 10 15 11 12 13 9 10 14 2 3 7 2 3 7 2 3 2 3 4 5 11,12,13 11,12,13 4 11,12,13 11,12,13 5 11,12,13 11,12,13 11,12,13 11,12,13 7 Clock Input VIHmax VILmin 9,10 9,10 9,10 9,10 9 10 4 15 11 12 13 5 5 4 4 4 5 9 10 5 VIHmax +4.110 +4.190 +4.300 VILmin +3.070 +3.110 +3.135 VIHAmin +3.795 +3.895 +3.965 VILAmax +3.500 +3.525 +3.560 VIH +2.4 +2.4 +2.4 VILH +0.5 +0.5 +0.5 (VEE) Gnd 8 8 8 8 8 8 8 8 8 8 8 8,15 8,11 8,12 8,13 8 8 8 8 8 8 8 8 8 8 8 8 8 8 TEST VOLTAGE APPLIED TO PINS LISTED BELOW VIHmax VILmin VIHAmin VILAmax VIH VIL Characteristic Power Supply Drain Current Symbol ICC1 ICC2 Input Current IinH1 IinH2 IinH3 IinH4 Leakage Current IinL1 IinL2 Reference Voltage Logic `1' Output Voltage VBB VOH1 (Note 4.) VOH2 Logic `0' Output Voltage VOL1 (Note 4.) VOL2 Logic `1' Threshold Voltage Logic `0' Threshold Voltage VOHA (Note 5.) VOLA (Note 6.) Short Circuit Current IOS 7 5 4 4. 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. 5. In addition to meeting the output levels specified, the device must divide by 5, 8 or 10 during this test. The clock input is the waveform shown. 6. In addition to meeting the output levels specified, the device must divide by 6, 9 or 11 during this test. The clock input is the waveform shown. MOTOROLA RF/IF DEVICE DATA 7 MC12009 MC12011 MC12013 ELECTRICAL CHARACTERISTICS (Supply Voltage = 5.0 V, unless otherwise noted.) (continued) TEST VOLTAGE/CURRENT VALUES Volts @ Test Temperature -30C +25C +85C Pin Under Test 8 6 15 11 12 13 4 5 5 9 10 15 11 12 13 9 10 14 2 3 7 2 3 7 2 3 2 3 9,10 9,10 9,10 9,10 9,10 9,10 9,10 VIHT +2.0 +2.0 +2.0 VILT +0.8 +0.8 +0.8 VCC +5.0 +5.0 +5.0 IL -0.25 -0.25 -0.25 mA IOL 16 16 16 IOH -0.40 -0.40 -0.40 (VEE) Gnd 8 8 8 8 8 8 8 8 8 8 8 8,15 8,11 8,12 8,13 8 8 14 8 8 8 7 8 8 8 7 8 8 8 8 8 8 Clock Input VIHmax VILmin TEST VOLTAGE APPLIED TO PINS LISTED BELOW VIHT VILT VCC 1,16 6 1,16 1,16 1,16 1,16 6 6 6 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 1,16 6 1,16 1,16 6 1,16 1,16 1,16 1,16 IL IOL IOH Characteristic Power Supply Drain Current Symbol ICC1 ICC2 Input Current IinH1 IinH2 IinH3 IinH4 Leakage Current IinL1 IinL2 Reference Voltage Logic `1' Output Voltage VBB VOH1 (Note 4.) VOH2 Logic `0' Output Voltage VOL1 (Note 4.) VOL2 Logic `1' Threshold Voltage Logic `0' Threshold Voltage VOHA (Note 5.) VOLA (Note 6.) Short Circuit Current IOS 7 6 4. 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. 5. In addition to meeting the output levels specified, the device must divide by 5, 8 or 10 during this test. The clock input is the waveform shown. 6. In addition to meeting the output levels specified, the device must divide by 6, 9 or 11 during this test. The clock input is the waveform shown. 8 MOTOROLA RF/IF DEVICE DATA MC12009 MC12011 MC12013 SWITCHING CHARACTERISTICS MC12009, MC12011, MC12013 Pin Under Test 2 2 7 7 11 9 11 9 2 440 500 500 -- -- -- -- -- -- 480 550 550 -- -- -- -- -- -- 440 500 500 -- -- -- -- -- -- -30C Min -- -- -- -- 5.0 5.0 5.0 5.0 Typ -- -- -- -- -- -- -- -- Max 8.1 7.5 8.4 6.5 -- -- -- -- Min -- -- -- -- 5.0 5.0 5.0 5.0 +25C Typ -- -- -- -- -- -- -- -- Max 8.1 7.5 8.1 6.5 -- -- -- -- Min -- -- -- -- 5.0 5.0 5.0 5.0 +85C Typ -- -- -- -- -- -- -- -- Max 8.9 82 8.9 7.1 -- -- -- -- Unit U it ns Pulse Gen.1 15 15 A A 15 15 15 15 TEST VOLTAGES/WAVEFORMS APPLIED TO PINS LISTED BELOW: Pulse Gen.2 -- -- -- -- * -- * -- Pulse Gen.3 -- -- -- -- -- * -- * VIHmin Characteristic Ch t i ti Propagation Delay (See Figures 3 and 5) Symbol S bl t15+ 2+ t15+ 2- t5+ 7+ t5- 7- tsetup1 tsetup2 trel1 trel2 fmax { VILmin { VF -3.0 V 9,10 9,10 -- -- 9,10 * 9.10 * VEE -3.0 V 8 8 8 8 8 8 8 8 VCC +2.0 1,6,16 1,6,16 1,6,16 1,6,16 1,6,16 1,6,16 1,6,16 1,6,16 -- -- -- -- -- -- -- -- 11,12,13 11,12,13 -- -- * 11,12,13 * 11,12,13 Setup Time (See Figures 4 and 5) Release Time (See Figures 4 and 5) Toggle Frequency (See Figure 6) MC12009 : 5/6 MC12011 : 8/9 MC12013 : 10/11 ns ns ns ns MHz -- -- -- -- -- -- -- -- -- 11 11 11 -- -- -- -- -- -- 8 8 8 16 16 16 *Test inputs sequentially, with Pulse Generator 2 or 3 as indicated connected to input under test, and the voltage indicated applied to the other input(s) of the same type ( i.e., MECL or MTTL). -30C + 25C + 1.115 + 0.200 + 85C + 1.20 + 0.235 Vdc Vdc {VIHmin {VILmin + 1.03 + 0.175 Figure 3. AC Voltage Waveforms Pulse Generator 1 t++ Q (Pin 2) 50% 80% 50% 20% VIHmin VILmin t+ - Q (Pin 3) 50% + In MTTL Out 50% 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) 80% 20% 80% 50% 90% 10% Divide by 5 -- MC12009 Divide by 8 -- MC12011 Divide by 10 -- MC12013 20% VIHmin VILmin VIHmin VILmin 0V VEE Pulse Generator 1 Pulse 50% Generator t rel2 2 Pulse Generator 3 -1.5 V Q (Pin 2) 80% 20% VIHmin VILmin VIHmin VILmin 0V VEE 50% trel1 80% 20% 90% 10% Divide by 6 -- MC12009 Divide by 9 -- MC12011 Divide by 11 -- MC12013 MOTOROLA RF/IF DEVICE DATA 9 MC12009 MC12011 MC12013 Figure 5. AC Test Circuit Vin VCC = +2.0 V Vout (Scope Channel B) 50 Pulse Generator #1 25 F 1 6 16 0.1 F Vout 100 Vin 13 12 E1 E2 E3 E4 E5 C Q 2 Pulse Generator #2 50 100 Vin 11 10 9 15 3 Q Vout 14 950 Pulse Generator #3 5 50 + VBB 1950 7 4 - MECL to MTTL Trans- lator 8 Vin (Scope Channel A) MC10109 or equiv. A All Pulse Generators are EH 137 or equiv. Pulse Generators 1 and 2: 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 0.1 F VEE = -3.0 V CT 50 VEE = -3.0 V All resistors are + 1%. All input and output cables to the scope are equal lengths of 50-ohm coaxial cable. The 1950-ohm 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-ohm resistor to ground. 10 MOTOROLA RF/IF DEVICE DATA MC12009 MC12011 MC12013 Figure 6. Maximum Frequency Test Circuit VCC = +2.0 V 0.1 F 5.0 F Vout to Scope 1 16 13 E1 Vin (To Scope) VEE 11 E3 10 9 Sine Wave Input 0.1 F 15 C 1k 14 VBB 0.1 F 8 0.1 F VEE = -3.0 V Unused output connected to a 50 resistor to ground 12 E2 Q 2 E4 E5 Q 3 800 mV Clock Input DIVIDE BY 6 850 mV typ Q (Pin 2) 3 Cycles 3 Cycles DIVIDE BY 9 800 mV Clock Input 850 mV typ Q (Pin 2) 5 Cycles 4 Cycles DIVIDE BY 11 800 mV Clock Input 850 mV typ Q (Pin 2) 6 Cycles 5 Cycles MOTOROLA RF/IF DEVICE DATA 11 MC12009 MC12011 MC12013 Figure 7. State Diagram DIVIDE BY 5/6 (MC12009/MC12509) Enable = 0 Q1 1 0 0 0 1 1 Q2 1 1 0 0 0 1 Q3 1 1 1 0 0 0 111 011 001 010 101 Enable = 1 110 100 000 Enable = 1 DIVIDE BY 8/9 (MC12011) 0101 0010 1000 1100 1010 Enable = 0 Q1 1 0 0 1 1 0 0 1 1 Q2 1 1 0 0 1 1 0 0 1 Q3 1 1 1 0 0 1 1 0 0 Q4 1 1 1 1 1 0 0 0 0 1110 0110 0000 0111 1111 Enable = 1 0001 1101 Enable = 1. 1001 0011 1011 0100 DIVIDE BY 10/11 (MC12013) 1110 Enable = 0 Q1 1 0 0 0 1 1 0 0 0 1 1 Q2 1 1 0 0 0 1 1 0 0 0 1 Q3 1 1 1 0 0 0 1 1 0 0 0 Q4 1 1 1 1 1 1 0 0 0 0 0 1101 0110 1001 0101 0010 Enable = 1 0001 0100 0011 1011 0000 1010 1000 NOTES: Enable = 1. The State of the Enable is important only for the positive Clock Transition when the counter is in state 1100. 0111 1100 1111 12 MOTOROLA RF/IF DEVICE DATA MC12009 MC12011 MC12013 APPLICATIONS INFORMATION The primary application of these devices is as a high-speed variable modulus prescaler in the divide by N section of a phase-locked loop synthesizer used as the local oscillator of two-way radios. Proper VHF termination techniques should be followed when the clock is separated from the prescaler by any appreciable distance. In their basic form, these devices will divide by 5/6, 8/9, or 10/11. Division by 5, 8, or 10 occurs when any one or all of the five gate inputs E1 through E5 are high. Division by 6, 9, or 11 occurs when all inputs E1 through E5 are low. (Unconnected MTTL inputs are normally high, unconnected MECL inputs are normally low). With the addition of extra parts, many different division configurations may be obtained (20/21, 40/41, 50/51, 100/101, etc.) A few of the many configurations are shown below, only for the MC12013. Figure 8. Divide By 10/11 (MC12013) 13 E1 12 E2 11 E3 10 E4 9 E5 15 C 5 + MECL to MTTL Trans- lator Q4 3 Enable = 0 Q4 2 Q1 1 0 0 0 1 1 0 0 0 1 1 Q2 1 1 0 0 0 1 1 0 0 0 1 Q3 1 1 1 0 0 0 1 1 0 0 0 Q4 1 1 1 1 1 1 0 0 0 0 0 Enable = 1 4 - 7 MOTOROLA RF/IF DEVICE DATA 13 MC12009 MC12011 MC12013 Figure 9. Divide By 20/21 (MC12013) COUNT 31 30 28 24 25 27 22 20 16 17 19 14 12 8 9 11 6 4 0 1 3 Q1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 1 1 Q2 1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 1 Q3 1 1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 Q4 1 1 1 1 1 1 0 0 0 0 0 1 1 1 1 1 0 0 0 0 0 Q4 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 13 12 E1 Q4 E2 E3 E4 E5 C + MECL to MTTL Trans- lator 2 11 10 9 15 3 Q4 E2 + E3 + E4 + E5 = 0 E2 + E3 + E4 + E5 = 1 5 4 - 7 D Q Q5 C 1/2 MC10131 Q To obtain an MTTL output, connect Pins 5 and 4 to Pins 2 and 3 respectively. Termination resistors for the MECL outputs are not shown, but are required except for the flip-flop driving the translator section. The counter may also be built using an MTTL flip-flop by connecting Pins 5 and 4 to Pins 2 and 3 respectively, and driving the MTTL flip-flop with Pin 7. MC12013 inputs E4 and E5 are used rather than E1. With E1 + E2 + E3 = 0, operation remains as shown. B20/21 Figure 10. Divide By 40/41 (MC12013) 13 E1 12 E2 11 E3 10 E4 9 E5 15 C 5 C + MECL to MTTL Trans- lator Q Q4 3 D Q C Q Q4 2 D Q For For B40 : E4 + E5 = 1 B41 : E4 + E5 = 0 MC10131 7 4 - Termination resistors for MECL outputs are not shown, but are required except for the flip-flop driving the translator section. 14 MOTOROLA RF/IF DEVICE DATA MC12009 MC12011 MC12013 OUTLINE DIMENSIONS P SUFFIX PLASTIC PACKAGE CASE 648-08 ISSUE R -A- 16 9 B 1 8 NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: INCH. 3. DIMENSION L TO CENTER OF LEADS WHEN FORMED PARALLEL. 4. DIMENSION B DOES NOT INCLUDE MOLD FLASH. 5. ROUNDED CORNERS OPTIONAL. DIM A B C D F G H J K L M S INCHES MIN MAX 0.740 0.770 0.250 0.270 0.145 0.175 0.015 0.021 0.040 0.70 0.100 BSC 0.050 BSC 0.008 0.015 0.110 0.130 0.295 0.305 0_ 10 _ 0.020 0.040 MILLIMETERS MIN MAX 18.80 19.55 6.35 6.85 3.69 4.44 0.39 0.53 1.02 1.77 2.54 BSC 1.27 BSC 0.21 0.38 2.80 3.30 7.50 7.74 0_ 10 _ 0.51 1.01 F S C L -T- H G D 16 PL SEATING PLANE K J TA M M 0.25 (0.010) M Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. "Typical" parameters which may be provided in Motorola data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including "Typicals" must be validated for each customer application by customer's technical experts. Motorola does not convey any license under its patent rights nor the rights of others. Motorola products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Motorola product could create a situation where personal injury or death may occur. Should Buyer purchase or use Motorola products for any such unintended or unauthorized application, Buyer shall indemnify and hold Motorola and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that Motorola was negligent regarding the design or manufacture of the part. Motorola and are registered trademarks of Motorola, Inc. Motorola, Inc. is an Equal Opportunity/Affirmative Action Employer. Mfax is a trademark of Motorola, Inc. How to reach us: USA / EUROPE / Locations Not Listed: Motorola Literature Distribution; P.O. Box 5405, Denver, Colorado 80217. 1-303-675-2140 or 1-800-441-2447 Customer Focus Center: 1-800-521-6274 MfaxTM: RMFAX0@email.sps.mot.com - TOUCHTONE 1-602-244-6609 ASIA/PACIFIC: Motorola Semiconductors H.K. Ltd.; 8B Tai Ping Industrial Park, Motorola Fax Back System - US & Canada ONLY 1-800-774-1848 51 Ting Kok Road, Tai Po, N.T., Hong Kong. 852-26629298 - http://sps.motorola.com/mfax/ HOME PAGE: http://motorola.com/sps/ JAPAN: Nippon Motorola Ltd.: SPD, Strategic Planning Office, 141, 4-32-1 Nishi-Gotanda, Shagawa-ku, Tokyo, Japan. 03-5487-8488 MOTOROLA RF/IF DEVICE DATA 12009/D 15 |
Price & Availability of MC12011
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