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| CS3842B/3843B CS3842B/CS3843B Off-Line Current Mode PWM Control Circuit with Very Low Start Up Current Description The CS384XB provides all the necessary features to implement off-line fixed frequency current-mode control with a minimum number of external components. The family has been optimized for very low start up current (300A, typ). The CS384XB family incorporates a precision temperature-controlled oscillator with an internally trimmed discharge current to minimize variations in frequency. A precision duty-cycle clamp eliminates the need for an external oscillator when a 50% duty-cycle is used. Duty-cycles of almost 100% are possible. On board logic ensures that VREF is stabilized before the output stage is enabled. Ion-implant resistors provide tighter control of undervoltage lockout. Other features include pulse-by-pulse current limiting, and a high-current totem pole output for driving capacitive loads, such as the gate of a power MOSFET. The output is LOW in the off state, consistent with N-channel devices. These ICs are available in 8 and 14 lead surface mount (SO) and 8 lead PDIP packages. Features s Very low Start Up Current (300A typ) s Optimized Off-line Control s Internally Trimmed, Temperature Compensated Oscillator s Maximum Duty-cycle Clamp s VREF stabilization before Output Enable s Pulse-by-pulse Current Limiting s Improved Undervoltage Lockout s Double Pulse Suppression s 1% Trimmed Bandgap Reference s High Current Totem Pole Output Absolute Maximum Ratings Supply Voltage (ICC<30mA) ..........................................................Self Limiting Supply Voltage (Low Impedance Source)...................................................30V Output Current ...............................................................................................1A Output Energy (Capacitive Load) .................................................................5J Analog Inputs (VFB, Sense) ............................................................-0.3V to 5.5V Error Amp Output Sink Current...............................................................10mA Lead Temperature Soldering Wave Solder (through hole styles only) ...................10 sec. max, 260C peak Reflow (SMD styles only) ....................60 sec. max above 183C, 230C peak Block Diagram V CC Undervoltage Lock-out Circuit 34V Gnd 16V/10V (8.4V/7.6V) REF 2.50V OSC Output Enable NOR V OUT + V FB Error Amplifier COMP Sense ( ) Indicates CS-3843B - VC R 1V 2R S R Current Sense Comparator PWM Latch Set/ 5V Reset Reference Internal Bias V REF V CC Pwr Package Options 8 Lead PDIP & SO Narrow COMP VFB Sense OSC 1 2 3 4 8 7 6 5 VREF VCC VOUT Gnd 14L SO Narrow COMP 1 NC 2 VFB 3 NC 4 Pwr Gnd 14 13 12 11 10 9 8 VREF NC VCC VCC Pwr VOUT Pwr Gnd Gnd Oscillator Sense 5 NC 6 OSC 7 Cherry Semiconductor Corporation 2000 South County Trail, East Greenwich, RI 02818 Tel: (401)885-3600 Fax: (401)885-5786 Email: info@cherry-semi.com Web Site: www.cherry-semi.com Rev. 6/23/99 1 A (R) Company CS3842B/3843B Electrical Characteristics: 0TA70C, VCC=15V (Note 1); RT=680, CT=.022F for triangular mode, RT=10k, CT=3.3nF for sawtooth mode (see Fig. 3), unless otherwise stated TEST CONDITIONS MIN PARAMETER TYP MAX UNITS s Reference Section Output Voltage Line Regulation Load Regulation Temperature Stability Total Output Variation Output Noise Voltage Long Term Stability Output Short Circuit s Oscillator Section Initial Accuracy Voltage Stability Temp. Stability Sawtooth Mode (see Fig. 3), TJ=25C Triangular Mode (see Fig. 3), TJ=25C 12VCC25V Sawtooth Mode TMINTATMAX (Note 2) Triangular Mode TMINTATMAX (Note 2) Oscillator peak to peak TJ=25C TMINTATMAX 7.5 7.2 47 44 52 52 0.2 5 8 1.7 8.3 9.3 9.5 57 60 1.0 kHz kHz % % % V mA mA TJ=25C, IOUT=1mA 12VIN25V 1IOUT20mA (Note 2) Line, Load, Temperature (Note 2) 10Hzf10kHz, TJ=25C (Note 2) TA=125C, 1kHrs. (Note 2) TA=25C -30 4.82 50 5 -100 25 -180 4.90 5.00 6 6 0.2 5.10 20 25 0.4 5.18 V mV mV mV/C V V mV mA Amplitude Discharge Current s Error Amp Section Input Voltage Input Bias Current AVOL Unity Gain Bandwidth PSRR Output Sink Current Output Source Current VOUT High VOUT Low s Current Sense Section Gain Maximum Input Signal PSRR Input Bias Current Delay to Output s Output Section Output Low Level Output High Level ISINK=20mA ISINK=200mA ISOURCE=20mA ISOURCE=200mA 13.0 12.0 0.1 1.5 13.5 13.5 0.4 2.2 V V V V TJ=25C (Note 2) (Notes 3 & 4) VCOMP=5V (Note 3) 12VCC25V (Note 3) 2.85 0.9 3.00 1.0 70 -2 150 -10 300 3.15 1.1 V/V V dB A ns 2VOUT4V (Note 2) 12VCC25V VFB=2.7V, VOSC=1.1V VFB=2.3V, VOSC=5V VFB=2.3V, RL=15k to ground VFB=2.7V, RL=15k to VREF 65 0.7 60 2 -0.5 5 VCOMP=2.5V 2.42 2.50 -0.3 90 1.0 70 6 -0.8 6 0.7 1.1 2.58 -2.0 V A dB MHz dB mA mA V V 2 CS3842B/3843B Electrical Characteristics: continued PARAMETER TEST CONDITIONS MIN TYP MAX UNITS s Output Section: continued Rise Time Fall Time Output Leakage s Total Standby Current Start-Up Current Operating Supply Current VCC Zener Voltage VFB=VSense=0V RT=10k, CT=3.3nF ICC=25mA CS-3842B PARAMETER TEST CONDITIONS MIN TYP MAX MIN TJ=25C, CL=1nF (Note 2) TJ=25C, CL=1nF (Note 2) UVLO Active, VOUT=0 50 50 -0.01 150 150 -10.00 ns ns A 0.3 11 34 0.5 17 mA mA V CS-3843B TYP MAX UNITS s Under-Voltage Lockout Section Start Threshold Min. Operating Voltage After Turn On 14.5 8.5 16.0 10.0 17.5 11.5 7.8 7.0 8.4 7.6 9.0 8.2 V V Notes: 1. Adjust VCC above the start threshold before setting at 15V. 2. These parameters, although guaranteed, are not 100% tested in production. 3. Parameter measured at trip point of latch with VFB=0. 4. Gain defined as: A= VCOMP VSense ; 0 VSense 0.8V. Package Pin Description PACKAGE PIN # PIN SYMBOL FUNCTION 8L PDIP/SO 1 2 3 4 5 14L SO Narrow 1 3 5 7 8 9 COMP VFB Sense OSC Gnd Pwr Gnd VOUT VCCPwr VCC VREF NC Error amp output, used to compensate error amplifier Error amp inverting input Noninverting input to Current Sense Comparator Oscillator Timing Network with Capacitor to Ground, resistor to VREF Ground Output driver Ground Output drive pin Output driver positive supply Positive power supply Output of 5V internal reference No Connection 6 10 11 7 8 12 14 2,4,6,13 3 CS3842B/3843B Typical Performance Characteristics: Oscillator Frequency vs CT 100 900 800 90 Oscillator Duty Cycle vs RT RT =680 DUTY CYCLE (%) 700 FREQ. (kHz) 600 500 80 70 60 50 40 30 20 RT =1.5k 400 300 200 100 RT =10k 10 100 .0005 .001 .002 .003 .005 .01 .02 .03 .04 .05 200 300 400 500 700 1k 2k 3k 4k 5k 7k 10k CT (F) RT () Test Circuit V REF RT 2N2222 100k 4.7k 1k ERROR AMP ADJUST 4.7k 5k A COMP CS-3842B V FB CS-3843B V CC 0.1F 1k 1W V CC V REF 0.1F Sense ADJUST Sense V OUT V OUT OSC Gnd Gnd CT Circuit Description V CC Undervoltage Lockout ON/OFF Command to reset of IC CS3842B CS3843B V ON V OFF 16V 10V 8.4V 7.6V During Undervoltage Lockout (Figure 1), the output driver is biased to a high impedance state. VOUT should be shunted to ground with a resistor to prevent output leakage current from activating the power switch. PWM Waveform I CC <15mA <0.5mA V ON V OFF V CC Figure 1: Typical Undervoltage Characteristics To generate the PWM waveform, the control voltage from the error amplifier is compared to a current sense signal which represents the peak output inductor current (Figure 2). An increase in VCC causes the inductor current slope to increase, thus reducing the duty cycle. This is an inherent feed-forward characteristic of current mode control, since the control voltage does not have to change during changes of input supply voltage. When the power supply sees a sudden large output current increase, the control voltage will increase allowing the duty cycle to momentarily increase. Since the duty 4 CS3842B/3843B Figure 3: Oscillator cycle tends to exceed the maximum allowed, to prevent transformer saturation in some power supplies, the internal oscillator waveform provides the maximum duty cycle clamp as programmed by the selection of oscillator timing components. VOSC OSC RESET EA Output Switch Current VCC Setting the Oscillator The oscillator timing capacitor, CT, is charged by VREF through RT and discharged by an internal current source (Figure 3). During the discharge time, the internal clock signal blanks out the output to the Low state, thus providing a user selected maximum duty cycle clamp. Charge and discharge times are determined by the general formulas: tc = RTCT ln IOUT VOUT ( VREF - Vlower VREF - Vupper ) ) Figure 2: Timing Diagram for key CS-384XB parameters td = RTCT ln ( VREF - Id RT -Vlower VREF - Id RT - Vupper V REF RT OSC CT Gnd Substituting in typical values for the parameters in the above formulas: VREF = 5.0V, Vupper = 2.7V, Vlower = 1.0V, Id = 8.3mA, tc 0.5534RTCT td = RTCT ln then Vupper ( 2.3 - 0.0083 RT 4.0 - 0.0083 RT ) Vlower tc Sawtooth Mode The frequency and maximum duty cycle can be determined from the Typical Performance Characteristics graphs. td Grounding LARGE RT (10k) VOSC High peak currents associated with capacitive loads necessitate careful grounding techniques. Timing and bypass capacitors should be connected close to ground in a single point ground. The transistor and 5k potentiometer are used to sample the oscillator waveform and apply an adjustable ramp to Sense. Internal Clock Triangular Mode SMALL RT (700k) VREF Internal Clock Figure 3: Oscillator Timing Network and parameters 5 CS3842B/3843B Package Specification PACKAGE DIMENSIONS IN mm (INCHES) PACKAGE THERMAL DATA D Lead Count 8 L PDIP 8 L SOIC Narrow 14L SOIC Narrow Metric Max Min 10.16 9.02 5.00 4.80 8.75 8.55 English Max Min .400 .355 .197 .189 .344 .337 Thermal Data RJC RJA typ typ 8L 8L 14 L PDIP SO Narrow SO Narrow 52 45 30 C/W 100 165 125 C/W Surface Mount Narrow Body (D); 150 mil wide Plastic DIP (N); 300 mil wide 4.00 (.157) 3.80 (.150) 6.20 (.244) 5.80 (.228) 7.11 (.280) 6.10 (.240) 8.26 (.325) 7.62 (.300) 3.68 (.145) 2.92 (.115) 1.77 (.070) 1.14 (.045) 2.54 (.100) BSC 0.51 (.020) 0.33 (.013) 1.27 (.050) BSC 1.75 (.069) MAX 1.57 (.062) 1.37 (.054) 1.27 (.050) 0.40 (.016) 0.25 (.010) 0.19 (.008) D REF: JEDEC MS-012 .356 (.014) .203 (.008) 0.39 (.015) MIN. .558 (.022) .356 (.014) Some 8 and 16 lead packages may have 1/2 lead at the end of the package. All specs are the same. 0.25 (0.10) 0.10 (.004) REF: JEDEC MS-001 D Ordering Information Part Number CS3842BGN8 CS3842BGD8 CS3842BGDR8 CS3842BGD14 CS3842BGDR14 CS3843BGN8 CS3843BGD8 CS3843BGDR8 CS3843BGD14 CS3843BGDR14 Rev. 6/23/99 Description 8L PDIP 8L SO Narrow 8L SO Narrow (tape & reel) 14L SO Narrow 14L SO Narrow (tape & reel) 8L PDIP 8L SO Narrow 8L SO Narrow (tape & reel) 14L SO Narrow 14L SO Narrow (tape & reel) 6 Cherry Semiconductor Corporation reserves the right to make changes to the specifications without notice. Please contact Cherry Semiconductor Corporation for the latest available information. (c) 1999 Cherry Semiconductor Corporation |
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