MIC2164-3YMM Micrel Inc, MIC2164-3YMM Datasheet
MIC2164-3YMM
Specifications of MIC2164-3YMM
Related parts for MIC2164-3YMM
MIC2164-3YMM Summary of contents
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... The Micrel MIC2164/-2/-3/C synchronous buck controllers featuring adaptive on-time control. The MIC2164/-2/-3/C are the first products in the new Hyper Speed Control™ family of buck controllers introduced by Micrel. The MIC2164/-2/-3/C controllers operate over an input supply range 28V, and are independent of the IC supply voltage ...
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... Micrel, Inc. Ordering Information Part Number Voltage MIC2164YMM Adjustable MIC2164-2YMM Adjustable MIC2164-3YMM Adjustable MIC2164CYMM Adjustable Pin Configuration Pin Description Pin Number Pin Name Pin Function High-Side N-MOSFET Drain Connection (input): Power to the drain of the external high-side N-channel 1 HSD MOSFET. The HSD operating voltage range is from 3V to 28V. Input capacitors between HSD and the power ground (PGND) are required ...
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... IN pin and the BST pin. A boost capacitor of 0.1μF is connected between the 10 BST BST pin and the LX pin. Adding a small resistor in series with the boost capacitor can slow down the turn-on time of high-side N-Channel MOSFETs. September 2010 3 MIC2164/-2/-3/C M9999-091310-D ...
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... Condition (V = 1.5V, output switching but excluding FB external MOSFET gate current 5.5V 28 unconnected, IN BST HSD EN = GND 0°C ≤ T ≤ 85°C J −40°C ≤ T ≤ 125° 25°C (MIC2164C 0. 0.8V (MIC2164C (MIC2164C) FB MIC2164C MIC2164 MIC2164-2 MIC2164-3 4 MIC2164/-2/-3/C (2) )............................................ 3. ...
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... The current will come only from the internal 100kΩ pull-up resistor sitting on the EN Input and tied to IN. 8. Measured in test mode. 9. Measured at DH. The maximum duty cycle is limited by the fixed mandatory off time T September 2010 (4) (Continued) Condition MIC2164/ MIC2164C MIC2164-2 MIC2164-3 Measured at DH ...
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... OUTPUT CURRENT (A) 6 MIC2164-2 12V to 1.5V Efficiency 100 VIN= OUTPUT CURRENT (A) MIC2164-3 12V to 3.3V Efficiency 100 VIN= OUTPUT CURRENT (A) Feedback Voltage vs. HSD Voltage 0.85 0.84 0.83 0.82 0.81 0.80 0.79 0.78 0.77 VHSD=12V 0.76 ...
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... INPUT VOLTAGE (V) MIC2164 Switching Frequency vs. VHSD 350 340 330 320 310 300 290 280 270 260 250 HSD VOLTAGE (V) MIC2164 Switching Frequency vs. Temperature 350 340 330 320 310 300 290 280 270 260 250 28 -40 - TEMPERATURE (°C) Current Limit Threshold vs. ...
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... Micrel, Inc. Typical Characteristics (Continued) Quiescent Supply Current vs. Input Voltage 2 1.8 1.6 1.4 1.2 1 0.8 0.6 0.4 0 3.5 4 4.5 5 INPUT VOLTAGE (V) September 2010 MIC2164/-2/-3/C M9999-091310-D ...
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... Micrel, Inc. Functional Characteristics MIC2164-3 Load Transient Vout (200mV/div) AC-coupled Iout (5A/div) Time 200μs/div September 2010 Vout (200mV/div) AC-coupled Iout (5A/div 1.0μH Cout = 660μF Vhsd = 12V Vin = 5V Vout = 3.3V 9 MIC2164/-2/-3/C MIC2164-2 Load Transient L = 1.0μH Cout = 1100μF ...
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... Micrel, Inc. Functional Characteristics (Continued) September 2010 10 MIC2164/-2/-3/C M9999-091310-D ...
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... Micrel, Inc. Functional Characteristics (continue) MIC2164-2 Output Voltage Ripple IL (5A/div) VOUT (50mV/div) AC-coupled September 2010 L = 1.0μH Cout = 1100μF Vhsd = 12V Vin = 5V Vout = 3.3V Iout = 15A Time 2μs/div 11 MIC2164/-2/-3/C M9999-091310-D ...
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... Micrel, Inc. Functional Diagram September 2010 Figure 1. MIC2164/-2/-3 Block Diagram 12 MIC2164/-2/-3/C M9999-091310-D ...
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... September 2010 The maximum duty cycle is obtained from the 363ns T where not recommended to use MIC2164/-2/-3 with a OFF time close to T increases, the internal ripple injection will increase and reduce the line regulation performance. Therefore, the maximum output voltage of the MIC2164/-2/-3 should be limited to 5.5V higher output voltage is required, use the MIC2176 instead. Please refer to “ ...
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... V , which is 130mV typical at 0.8V feedback voltage, CL the MIC2164/-2/-3 turns off the high-side MOSFET and a soft-start sequence is trigged. This mode of operation is called the “hiccup mode” and its purpose is to protect the down stream load in case of a hard short. The current limit threshold V to the FB voltage. Please refer to the “ ...
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... MIC2164. When the low-side MOSFET is turned back on, C D1. A small resistor R slow down the turn-on time of the high-side N-channel MOSFET ...
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... MOSFETs turn on and off ( where Duty Cycle = V 16 ISS = I (avg) C G[low - side] ISS , the power dissipated in the MIC2164/-2/-3 due .(I (avg) GATEDRIVE IN G[high - side] . Lower numbers translate into higher efficiency. Low G • Voltage rating • On-resistance • ...
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... HSD of core material and the minimizing of the winding resistance. The high frequency operation of the MIC2164/-2/-3 requires the use of ferrite materials for all but the most cost sensitive applications. Lower cost iron powder cores may be used but the increase in core loss will reduce the efficiency of the power supply ...
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... SW As described in the “Theory of Operation” subsection in “Functional Description”, MIC2164/-2/-3 requires at least 20mV peak-to-peak ripple at the FB pin to make the g amplifier and the error comparator to behavior properly. Also, the output voltage ripple should be in phase with the inductor current. Therefore, the output voltage ripple ...
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... FB voltage ripple is less than 20mV. If the FB voltage ripple is so small that the g could not sense it, then the MIC2164/-2/-3 will lose control and the output voltage will not be regulated. In (25) order to have some amount of FB voltage ripple, the ripple injection method is applied for low output voltage ripple applications ...
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... Step 2. Select Rinj according to the expected feedback voltage ripple. According to the equation (30): Then the value of Rinj is obtained as: Step 3. Select Cinj as 100nF, which could be considered as short for a wide range of the frequencies. 1 (29) D) × f × τ SW (30) 20 MIC2164/-2/-3 << 1 fsw × τ τ Δ V τ ⋅ ...
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... Figure 7. The inverting input voltage V clamped to 1.2V will be clamped. The clamped V regulation because it is reflected back error on the FB terminal. Therefore, the maximum output voltage of the MIC2164/-2/-3 should be limited to 5.5V to avoid this problem higher output voltage is required, use the MIC2176 instead ...
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... PCB Layout is critical to achieve reliable, stable and efficient performance. A ground plane is required to control EMI and minimize the inductance in power, signal and return paths. The following guidelines should be followed to insure proper operation of the MIC2164/-2/-3 converter. IC • Place the IC and MOSFETs close to the point of load (POL). ...
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... Micrel, Inc. Evaluation Board Schematics September 2010 Figure 8. Schematic of MIC2164 20A Evaluation Board 23 MIC2164/-2/-3/C M9999-091310-D ...
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... Murata (6) SANYO 1000µF Aluminum Capacitor, 16V (7) Diodes Inc Small Signal Schottky Diode (2) Vishay (8) Sumida 1.5µH Inductor, 27.2A Saturation Current (9) Fairchild 30V N-Channel MOSFET 6.9mΩ R (9) Fairchild 30V N-Channel MOSFET 7mΩ MIC2164/-2/-3/C Qty 4.5V 2 DS(ON) @ 4.5V 2 DS(ON) M9999-091310-D ...
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... Resistor, Size 0603, 1% (2) Vishay/Dale 1.21Ω Resistor, Size 0603, 1% (2) Vishay/Dale 10kΩ Resistor, Size 0603, 1% (2) Vishay/Dale 20Ω Resistor, Size 0603, 1% (2) Vishay/Dale 3.24kΩ Resistor, Size 0603, 1% (10) MICREL INC 300kHz Buck Controller (10) MICREL INC LDO 25 MIC2164/-2/-3/C Qty M9999-091310-D ...
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... Micrel, Inc. PCB Layout Recommendations September 2010 Figure 9. MIC2164 20A Evaluation Board Top Layer Figure 10. MIC2164 20A Evaluation Board Bottom Layer 26 MIC2164/-2/-3/C M9999-091310-D ...
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... Micrel, Inc. PCB Layout Recommendations (Continued) September 2010 Figure 11. MIC2164 20A Evaluation Board Mid-Layer 1 Figure 12. MIC2164 20A Evaluation Board Mid-Layer 2 27 MIC2164/-2/-3/C M9999-091310-D ...
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... Micrel, Inc. Application Schematics and Bill of Materials September 2010 Figure 13. MIC2164 12V to 3.3V @ 20A Buck Converter 28 MIC2164/-2/-3/C M9999-091310-D ...
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... Micrel, Inc. Bill of Materials (MIC2164 12V to 3.3V @ 20A) Item Part Number C1, C8, C17, C19 06035C104KAT C2 0805ZD225MAT C3 222215095001 C4, C5, C6 1210YD226MAT C9 0805ZD105KAT C10 06035C223KAT C11 16ME1000WGL C12 12106D107MAT C15 06035C102KAT D1 SD103BWS L1 CDEP147NP-1R5M Q1, Q4 FDMS7672 Q2, Q3 FDS8672S R1 CRCW06032R21FKEY3 R5 CRCW06031R21FKEY3 R6, R9 CRCW06031002FKEY3 R15 CRCW06033241FKEY3 U1 MIC2164YMM U2 MIC5233-5 ...
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... Micrel, Inc. September 2010 Figure 14. MIC2164 12V to 1.8V @ 10A Buck Converter 30 MIC2164/-2/-3/C M9999-091310-D ...
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... Micrel, Inc. Bill of Materials (MIC2164 12V to 1.8V @ 10A) Item Part Number C1, C8, C17, C19 06035C104KAT C2 0805ZD225MAT C3 222215095001 C4, C5 1210YD106MAT C9 0805ZD105KAT C10 06035C223KAT C11 6SEPC560MX C12 12106D107MAT C15 06035C102KAT D1 SD103BWS L1 CDEP105-2R0MC-32 Q1, Q2 FDS7764A R1 CRCW06032R21FKEY3 R5 CRCW06031R21FKEY3 R6, R9 CRCW06031002FKEY3 R15 CRCW06038061FKEY3 U1 MIC2164YMM U2 MIC5233-5.0YM5 Notes: 1 ...
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... Micrel, Inc. September 2010 Figure 15. MIC2164 12V to 1. Buck Converter 32 MIC2164/-2/-3/C M9999-091310-D ...
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... Micrel, Inc. Bill of Materials (MIC2164 12V to 1.0V @ 5A) Item Part Number C1, C8, C17, C19 06035C104KAT C2 0805ZD225MAT C3 222215095001 C4 1210YD106MAT C9 0805ZD105KAT C10 06035C223KAT C11, C12, C13 12106D107MAT C15 06035C102KAT D1 SD103BWS L1 CDRH104RNP-3R8 Q1 FDS6910 R1 CRCW06032R21FKEY3 Vishay Dale R5 CRCW06031R21FKEY3 Vishay Dale 1.21Ω Resistor, Size 0603, 1% R6, R9 ...
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... Micrel, Inc. September 2010 Figure 16. MIC2164-2 12V to 3.3V @ 15A Buck Converter 34 MIC2164/-2/-3/C M9999-091310-D ...
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... Micrel, Inc. Bill of Materials (MIC2164-2 12V to 3.3V @ 15A) Item Part Number C1, C8, C17, C19 06035C104KAT C2 0805ZD225MAT C3 222215095001 C4, C5 1210YD226MAT C9 0805ZD105KAT C10 06035C472KAT C11 16ME1000WGL C12 12106D107MAT C15 06035C102KAT D1 SD103BWS L1 HCP1305-1R0 Q1 FDMS7672 Q2, Q3 FDS8874 R1 CRCW06032R21FKEY3 R5 CRCW06031R21FKEY3 R6 CRCW06031002FKEY3 R9 CRCW06034021FKEY3 R15 CRCW06033241FKEY3 U1 MIC2164-2YMM U2 MIC5233-5.0YM5 Notes: 1 ...
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... Micrel, Inc. September 2010 Figure 17. MIC2164-3 12V to 1.8V @ 10A Buck Converter 36 MIC2164/-2/-3/C M9999-091310-D ...
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... C12 12106D107MAT C15 06035C102KAT D1 SD103BWS L1 HCF1305-1R0 Q1, Q2 FDS7764A R1 CRCW06032R21FKEY3 R5 CRCW06031R21FKEY3 R6 CRCW06031002FKEY3 R9 CRCW06032001FKEY3 R15 CRCW06038061FKEY3 U1 MIC2164-3YMM U2 MIC5233-5.0YM5 Notes: 1. AVX: www.avx.com. 2. Vishay: www.vishay.com. 3. Sanyo: www.sanyo.com. 4. Sumida: www.sumida.com. 5. Fairchild: www.fairchildsemi.com. 6. Micrel, Inc: www.micrel.com. September 2010 Manufacturer Description (1) AVX 0.1µF Ceramic Capacitor, X7R, Size 0603, 50V ...
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... Micrel, Inc. Recommended Land Pattern September 2010 10-Pin MSOP (MM) 38 MIC2164/-2/-3/C M9999-091310-D ...
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... Purchaser’s use or sale of Micrel Products for use in life support appliances, devices or systems is a Purchaser’s own risk and Purchaser agrees to fully September 2010 10-Pin MSOP (MM) indemnify Micrel for any damages resulting from such use or sale. © 2009 Micrel, Incorporated. 39 MIC2164/-2/-3/C http://www.micrel.com M9999-091310-D nt ...