RY9122

RY9122 18V 2A 500kHz ECOT Sync Step-Down Regulator Features • • • • Wide 4V to 18V Operating Input Range 2A Continuous Output Current 500kHz Switching Frequency ECOT Mode Control with Fast Transient Response • • • • Built-in Over Current Limit Built-in Over Voltage Protection Internal Power-Save Mode (PFM/PWM) Internal Soft-Start • 110mΩ/70mΩ Low RDS(ON) Internal Power MOSFETs • • • • • • • Output Adjustable from 0.8V No Schottky Diode Required Short Protection with Hiccup-Mode Integrated internal compensation Thermal Shutdown Available in SOT23-6 Package -40°C to +85°C Temperature Range • • • • Digital Video Recorder (DVR) Portable Media Player (PMP) Cable Modem / XDSL General Purposes Applications • • • • Digital Set-top Box (STB) Tablet Personal Computer (Pad) Flat-Panel Television and Monitor Wi-Fi Router / AP General Description The RY9122 is a high frequency, synchronous, rectified, step-down, switch-mode converter with internal power MOSFETs. It offers a very compact solution to achieve a 3A peak output current over a wide input supply range, with excellent load and line regulation. ECOT control operation provides very fast transient response and easy loop design as well as very tight output regulation. The RY9122 requires a minimal number of readily available, external components and is available in a space saving SOT23-6 package. Typical Application Circuit C1 BS VIN IN L1 VOUT SW R1 CIN ON/ OFF EN CFF COUT FB GND R2 Basic Application Circuit Email: support@rychip.com ©RYCHIP Semiconductor Inc. http://www.rychip.com RY9122 18V 2A 500kHz ECOT Sync Step-Down Regulator Pin Description Pin Configuration TOP VIEW GND 1 6 BS SW 2 5 EN IN 3 4 FB SOT23-6 Top Marking: CGYLL (device code: CG, Y=year code, LL= lot number code) Pin Description Pin Name Function 1 GND 2 SW Switching Pin 3 IN Power Supply Pin 4 FB Adjustable Version Feedback input. Connect FB to the center point of the external resistor divider 5 EN Drive this pin to a logic-high to enable the IC. Drive to a logic-low to disable the IC and enter micro-power shutdown mode. 6 BS Bootstrap. A capacitor connected between SW and BS pins is required to form a floating supply across the high-side switch driver. Ground Pin Order Information Marking Part No. Model Description Package MOQ CFYLL 70301130 RY9122 RY9122 ECOT Buck, 4-18V, 2A, 500kHz, VFB 0.8V, SOT23-6 SOT236 3000PCS Email: support@rychip.com ©RYCHIP Semiconductor Inc. http://www.rychip.com RY9122 18V 2A 500kHz ECOT Sync Step-Down Regulator Absolute Maximum Ratings (1) (2) VIN, EN, Voltage …………………... -0.3V to 20V VSW Voltage ...………………...…...…. -0.3V to (VIN+0.5V) VFB Voltages ...………………………… -0.3 to 6V VBS Voltage …...………………...... (Vsw-0.3) to (Vsw+5V) Operating Temperature Range …...-40°C to +85°C Storage Temperature Range ………………. -65°C to 150°C Lead Temperature (Soldering, 10s) ……... +300°C Junction Temperature……….………………...….…+150°C θJA ……….……...……….…………..........95°C/W ESD (Human Body Made) HMB……………...……….2KV θJC ……….……...……………...…..…......50°C/W ESD (Machine Made) MM…………………………... 200V Note1: Exceeding these ratings may damage the device. Note2: The device is not guaranteed to function outside of its operating conditions. Electrical Characteristics (3) (4) Parameter Test Conditions Input Voltage Range Min Typ. 4 Max Unit 18 V Supply Current in Operation VEN=3.0V, VFB=1.1V 20 mA Supply Current in Shutdown VEN =0 or EN = GND 10 uA Regulated Feedback Voltage TA = 25°C 0.810 V 0.787 0.800 High-Side Switch On-Resistance 110 mΩ Low-Side Switch On-Resistance 70 mΩ High-Side Switch Leakage Current VEN=0V, VSW=0V Upper Switch Current Limit Minimum Duty Cycle 10 uA 3 A 500 kHz 92 % Minimum On-Time 60 nS Minimum Off-Time 90 nS VEN=2V 1 uA VEN=0V 0 uA Oscillation Frequency Maximum Duty Cycle EN Input Current VFB=0.80V VIN Under-Voltage Lockout Threshold-Hysteresis INUVTH VIN Under-Voltage Lockout Threshold-Hysteresis INUVHYS 200 mV EN Rising ON-Time VEN-Rising 1.2 V EN Falling Off-Time VEN-Falling 1 V Soft Start 1.2 mS Thermal Shutdown 160 ℃ Thermal Hysteresis 20 ℃ 3.5 3.9 V Note3: MOSFET on-resistance specifications are guaranteed by correlation to wafer level measurements. Note4: Thermal shutdown specifications are guaranteed by correlation to the design and characteristics analysis. Email: support@rychip.com ©RYCHIP Semiconductor Inc. http://www.rychip.com RY9122 18V 2A 500kHz ECOT Sync Step-Down Regulator Functional Block Diagram IN VCC Internal Regulator EN BS UVLO On-Time Bias&Voltage Reference HICCUP Control VSHORT Reference FB PWM Reference SW Driver OC OCL Reference Ripple Gen SW GND RY9122 Block Diagram Functions Description Internal Regulator The RY9122 is a ECOT (Enhanced Constant On-Time) mode step down DC/DC converter that provides excellent transient response with no extra external compensation components. This device contains an internal, low resistance, high voltage power MOSFET, and operates at a high 500kHz operating frequency to ensure a compact, high efficiency design with excellent AC and DC performance. Error Amplifier The error amplifier compares the FB pin voltage with the internal FB reference (VFB) and outputs a current proportional to the difference between the two. This output current is then used to charge or discharge the internal compensation network, which is used to control the power MOSFET current. The optimized internal compensation network minimizes the external component counts and simplifies the control loop design. Internal Soft-Start The soft-start is implemented to prevent the converter output voltage from overshooting during startup. When the chip starts, the internal circuitry generates a soft-start voltage (SS) ramping up from 0V to 0.80V. When it is lower than the internal reference (REF), SS overrides REF so the error amplifier uses SS as the reference. When SS is higher than REF, REF regains control. The SS time is internally max to 1.2ms. Over Current Protection & Hiccup The RY9122 has cycle-by-cycle over current limit when the inductor current peak value exceeds the set current limit threshold. Meanwhile, output voltage starts to drop until FB is below the Under-Voltage (UV) threshold, typically 25% below the reference. Once a UV is triggered, the RY9122 enters hiccup mode to periodically restart Email: support@rychip.com ©RYCHIP Semiconductor Inc. http://www.rychip.com RY9122 18V 2A 500kHz ECOT Sync Step-Down Regulator the part. This protection mode is especially useful when the output is dead-short to ground. The average short circuit current is greatly reduced to alleviate the thermal issue and to protect the regulator. The RY9122 exits the hiccup mode once the over current condition is removed. Startup and Shutdown If both VIN and EN are higher than their appropriate thresholds, the chip starts. The reference block starts first, generating stable reference voltage and currents, and then the internal regulator is enabled. The regulator provides stable supply for the remaining circuitries. Three events can shut down the chip: EN low, VIN low and thermal shutdown. In the shutdown procedure, the signaling path is first blocked to avoid any fault triggering. The comp voltage and the internal supply rail are then pulled down. The floating driver is not subject to this shutdown command. Applications Information Setting the Output Voltage RY9122 require an input capacitor, an output capacitor and an inductor. These components are critical to the performance of the device. RY9122 are internally compensated and do not require external components to achieve stable operation. The output voltage can be programmed by resistor divider. 𝑉𝑂𝑈𝑇 = 𝑉𝐹𝐵 × 𝑅1 + 𝑅2 𝑅2 VOUT(V) R1(KΩ) R2(KΩ) L1(μH) C1(nF) CFF(pF) CIN(μF) COUT(μF) 1 2.50 10 2.2 22-100 10-22 22 22-68 1.05 3.13 10 2.2 22-100 10-22 22 22-68 1.2 5.00 10 2.2 22-100 10-22 22 22-68 1.5 8.75 10 2.2 22-100 10-22 22 22-68 1.8 12.50 10 2.2 22-100 10-22 22 22-68 2.5 21.25 10 3.3 22-100 10-22 22 22-68 3.3 31.25 10 3.3 22-100 10-22 22 22-68 5.0 52.50 10 4.7 22-100 10-22 22 22-68 Table 2: Resistor Selection for Common Output Voltages, COUT=22-68μF Selecting the Inductor The recommended inductor values are shown in the Application Diagram. It is important to guarantee the inductor core does not saturate during any foreseeable operational situation. The inductor should be rated to handle the peak load current plus the ripple current: Care should be taken when reviewing the different saturation current ratings that are specified by different manufacturers. Saturation current ratings are typically specified at 25°C, so ratings at maximum ambient temperature of the application should be requested from the manufacturer. 𝐿= Email: support@rychip.com ©RYCHIP Semiconductor Inc. 𝑉𝑂𝑈𝑇 × (𝑉𝐼𝑁 − 𝑉𝑂𝑈𝑇 ) 𝑉𝐼𝑁 × ∆𝐼𝐿 × 𝐹𝑂𝑆𝐶 http://www.rychip.com RY9122 18V 2A 500kHz ECOT Sync Step-Down Regulator Where ΔIL is the inductor ripple current. Choose inductor ripple current to be approximately 30% if the maximum load current. The maximum inductor peak current is: 𝐼𝐿(𝑀𝐴𝑋) = 𝐼𝐿𝑂𝐴𝐷 + ∆𝐼𝐿 2 Under light load conditions below 100mA, larger inductance is recommended for improved efficiency. Selecting the Output Capacitor Special attention should be paid when selecting these components. The DC bias of these capacitors can result in a capacitance value that falls below the minimum value given in the recommended capacitor specifications table. The ceramic capacitor’s actual capacitance can vary with temperature. The capacitor type X7R, which operates over a temperature range of −55°C to +125°C, will only vary the capacitance to within ±15%. The capacitor type X5R has a similar tolerance over a reduced temperature range of −55°C to +85°C. Many large value ceramic capacitors, larger than 1uF are manufactured with Z5U or Y5V temperature characteristics. Their capacitance can drop by more than 50% as the temperature varies from 25°C to 85°C. Therefore X5R or X7R is recommended over Z5U and Y5V in applications where the ambient temperature will change significantly above or below 25°C. Tantalum capacitors are less desirable than ceramic for use as output capacitors because they are more expensive when comparing equivalent capacitance and voltage ratings in the 0.47uF to 44uF range. Another important consideration is that tantalum capacitors have higher ESR values than equivalent size ceramics. This means that while it may be possible to find a tantalum capacitor with an ESR value within the stable range, it would have to be larger in capacitance (which means bigger and more costly) than a ceramic capacitor with the same ESR value. It should also be noted that the ESR of a typical tantalum will increase about 2:1 as the temperature goes from 25°C down to −40°C, so some guard band must be allowed. PC Board Layout Consideration PCB layout is very important to achieve stable operation. It is highly recommended to duplicate EVB layout for optimum performance. If change is necessary, please follow these guidelines for reference. 1. Keep the path of switching current short and minimize the loop area formed by Input capacitor, high-side MOSFET and low-side MOSFET. 2. Bypass ceramic capacitors are suggested to be put close to the Vin Pin. 3. Ensure all feedback connections are short and direct. Place the feedback resistors and compensation components as close to the chip as possible. 4. VOUT, SW away from sensitive analog areas such as FB. Connect IN, SW, and especially GND respectively to a large copper area to cool the chip to improve thermal performance and long-term reliability. Email: support@rychip.com ©RYCHIP Semiconductor Inc. http://www.rychip.com RY9122 18V 2A 500kHz ECOT Sync Step-Down Regulator Package Description SOT23-6 2.80 3.00 0.95 BSC 0.60 TYP 1.20 TYP EXAMPLE TOP MARK AAAAA 1.50 2.60 1.70 3.00 2.60 TYP PIN 1 TOP VIEW RECOMMENDED PAD LAYOUT GAUGE PLANE 0.25 BSC 0.90 1.30 1.45 MAX SEATING PLANE 0.30 0.50 0.95 BSC FRONT VIEW 0.00 0.15 0°~8° 0.30 0.55 0.09 0.20 SIDE VIEW NOTE: 1. CONTROL DIMENSION IS IN INCHES. DIMENSION IN BRACKET IS IN MILLIMETERS. 2. PACKAGE LENGTH DOES NOT INCLUDE MOLD FLASH, PROTRUSIONS OR GATE BURRS. 3. PACKAGE WIDTH DOES NOT INCLUDE INTERLEAD FLASH OR PROTRUSIONS. 4. LEAD COPLANARITY (BOTTOM OF LEADS AFTER FORMING) SHALL BE 0.004" INCHES MAX. 5. DRAWING CONFORMS TO JEDEC MS-012, VARIATION BA. 6. DRAWING IS NOT TO SCALE. Email: support@rychip.com ©RYCHIP Semiconductor Inc. http://www.rychip.com