PR9853应用规格书.pdf

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1、 V1.0 1/12 PR9853 Novel Low Cost Green-Power PWM Controller With Low EMI Technique Features Low Cost,PWM&PFM&CRM(Cycle Reset Mode)Low Start-up Current(about 3A)Low Operating Current(about 1.2mA)Current Mode Operation Under Voltage Lockout(UVLO)Built-in Synchronized Slope Compensation Built-in Low EM

2、I Technique Programmable PWM Frequency Audio Noise Free Operation Leading edge Blanking on Sense input Constant output power limiting for universal AC input Range SOT-23-6L、SOP8 and DIP-8 Pb-Free Packaging Good Protection Coverage With Auto Self-Recovery Complete Protection with Soft Clamped GATE ou

3、tput voltage 18.0V VDD over voltage protect 34.0V Cycle-by-cycle current limiting Output SCP(Short circuit Protection)Output OLP(Over Load Protection)High-Voltage CMOS Process with ESD Applications Switching AC/DC Adaptor Battery Charger Open Frame Switching Power Supply Standby Power Supplies Set-T

4、op Box Power Supplies 384X Replacement General Description The PR9853 is a highly integrated low cost current mode PWM controller,which is ideal for small power current mode of offline AC-DC fly-back converter applications.Making use of external resistors,the IC changes the operating frequency and a

5、utomatically enters the PFM/CRM(Cycle Reset Mode)under light-load/zero-load conditions.This can minimize standby power consumption and achieve power-saving functions.With a very low start-up current,the PR9853 could use a large value start-up resistor(2M).Built-in synchronized slope compensation enh

6、ances the stability of the system and avoids sub-harmonic oscillation.Dynamic peak current limiting circuit minimizes output power change caused by delay time of the system over a universal AC input range.Leading edge blanking circuit on current sense input could remove the signal glitch due to snub

7、ber circuit diode reverse recovery and thus greatly reduces the external component count and system cost in the design.Cycle-by-Cycle current limiting ensures safe operation even during short-circuit.Excellent EMI performance is achieved built-in soft driver and low EMI technique.The PR9853 offers p

8、erfect protection like OVP(Over Voltage Protection)、OLP(Over Load Protection)、SCP(Short circuit protection)、OTP、Sense Fault Protection and OCP(Over current protection).The PR9853s output driver is soft clamped to maximum 18.0V to protect the power MOSFET.PR9853 is offered in SOT-23-6L,SOT-8 and DIP-

9、8 packages.西安民展微一级代理商-同创微电子 手机 13418601901 QQ 409545144PR9853 Novel Low Cost Green-Power PWM Controller With Low EMI Technique V1.0 2/12 Pin Assignment Pin Descriptions Name Description GND GND Pin FB Voltage feedback pin.Output current of this pin could controls the PWM duty cycle、OLP and SCP.RI Th

10、is pin is to program the switching frequency.By connecting a resistor to ground to set the switching frequency.SEN Current sense pin,a resistor connects to sense the MOSFET current.VDD Supply voltage pin.GATE Totem output to drive the external power MOSFET.Typical Application PR9853 Novel Low Cost G

11、reen-Power PWM Controller With Low EMI Technique V1.0 3/12 Block Diagram Simplified Internal Circuit Architecture Absolute Maximum Ratings Symbol Parameter Rating Unit VDD Supply voltage Pin Voltage 40 V IOVP VDD OVP maximal enter current 20 mA VFB Input Voltage to FB Pin-0.3 to 6V V VSEN Input Volt

12、age to SEN Pin-0.3 to 6V V VRI Input Voltage to RI Pin-0.3 to 6V V PD Power Dissipation 300 mW ESD Capability,HBM Model 2500 V ESD Capability,Machine Model 250 V SOT-23-6L(20S)220 DIP-8 (10S)260 TL Lead Temperature (Soldering)SOP-8 (10S)230 TSTG Storage Temperature Range-55 to+150 TJ Operating Junct

13、ion Temperature Range-20 to+150 Recommended Operating Conditions Symbol Parameter Min Max Unit VDD VDD Supply Voltage 1030 V RI RI PIN Resistor Value 100 K ohm TOA Operation Ambient Temperature-2085 POMAX Maximal Output Power 080 W FPWM Frequency of PWM 30150 kHz PR9853 Novel Low Cost Green-Power PW

14、M Controller With Low EMI Technique V1.0 4/12 Electrical Characteristics (Ta=25C unless otherwise noted,VDD=16V)Symbol Parameter Conditions Min.Typ.Max.Unit Supply Voltage(VDD Pin)IST Startup Current 3.0 20.0 A VFB=0V 3.0 mA VFB=3V 1.2 mA ISS Operating Current VFB=Open 0.8 mA VDDON Turn-on Threshold

15、 Voltage 13.0 14.0 15.0 V VDDOFF Turn-off Threshold Voltage 7.8 8.8 9.8 V VDDCLAMP VDD Clamp Voltage IVDD=10mA 34.0 V VDDAIS Anti Intermission Surge VDD Voltage 9.4 V Voltage Feedback(FB Pin)IFB Short Circuit Current VFB=0V 0.7 mA VFB Open Loop Voltage VFB=Open 4.8 V IFB_0D Zero Duty Cycle FB curren

16、t 0.59 mA IPFM Enter PFM FB current 0.50 mA ICRM Enter CRM FB current 0.55 mA VPFM Enter PFM Threshold VFB 1.80 V VCRM Enter CRM Threshold VFB 1.40 V IOLP&SCP Enter OLP&SCP FB current 170 uA VOLP&SCP Enter OLP&SCP FB voltage 3.7 V TOLP&SCP OLP&SCP min.delay Time RI=100K 33 35 50 mS Current Sensing(S

17、EN Pin)VTH_L SEN Maximum Voltage Level（Dmin=0%）RI=100K,FB=3.3V 0.80 V VTH_H SEN Maximum Voltage Level(Dmax=78%)RI=100K,FB=3.3V 1.05 V TPD Delay to Output FB=3.3V 75 ns RCS Input Impedance 40 K TLEB Leading edge blanking time(LEB)RI=100K 300 nS PR9853 Novel Low Cost Green-Power PWM Controller With Lo

18、w EMI Technique V1.0 5/12 Oscillator(RI Pin)FOSC Normal Frequency RI=100Kohm 60 65 70 KHz FPFM PFM Frequency RI=100Kohm 22 KHZ DCMAX_W Maximum Duty Cycle PWM RI=100Kohm 78%DCMAX_F Maximum Duty Cycle PFM RI=100Kohm 78%FTEMP Frequency Temp.Stability-30-100 5%TBLANK Leading-Edge Blanking Time 300 nS FJ

19、ITTER Frequency jitter RI=100Kohm-4 4%GATE Drive Output(GATE Pin)VOL Output Low Level VDD=16V,IO=20mA 0.8 V VOH Output High Level VDD=16V,IO=20mA 10 V TR1 Rising Time CL=500pF 123 ns TF1 Falling Time CL=500pF 71 ns TR2 Rising Time CL=1000pF 248 ns TF2 Falling Time CL=1000pF 116 ns TR3 Rising Time CL

20、=1500pF 343 ns TF3 Falling Time CL=1500pF 153 ns TR4 Rising Time CL=2000pF 508 ns TF4 Falling Time CL=2000pF 209 ns VGCLAMP Output Clamp Voltage VDD=20V 18.0 V Low EMI technique fEMI Low EMI frequency RI=100Kohm 65 KHz f_osc Frequency modulation range/Base frequency RI=100Kohm-3 3%PR9853 Novel Low C

21、ost Green-Power PWM Controller With Low EMI Technique V1.0 6/12 Operation Description Current Mode Compared to voltage mode control,current mode control has a current feedback loop.When the voltage of the Sense resistor peak current of the primary winding reaches the internal setting value VTH,the r

22、egister resets and the power MOSFET cuts off.So,to detect and modulate the peak current cycle-by-cycle could control the output of the power supply.The current feedback has a good linear modulation rate and a fast input and output dynamic impact,and avoid the pole that the output filter inductance b

23、rings and the two-class system descends to the one-class.So it widens the frequency range and optimizes overload protection and short circuit protection.Startup Current and Under Voltage Lockout The startup current of PR9853 is set to be very low so that a large value startup resistor can be used to

24、 minimize the power loss.For AC to DC adaptor with universal input range design,a 2 M,1/8 W startup resistor and a 10uF/25V VDD hold capacitor could be used.The turn-on and turn-off threshold of the PR9853 is designed to 14V/8.8V.During startup,the hold-up capacitor must be charge to 14.0V through t

25、he startup resistor.The hysteresis is implemented to prevent the shutdown from the voltage dip during startup.Internal Bias and OSC Operation A resistor connected between RI pin and GND pin sets the internal constant current source to charge or discharge the internal fixed capacitor.The charge time

26、and discharge time determines the internal clock speed and the switching frequency.Increasing the resistance will reduce the value of the input current and reduce the switching frequency.The relationship between RI and PWM switching frequency follows the below equation within the RI allowed range.)(

27、)(6500kHzKRIFOSC For example,a 100k resistor RI could generate a 20uA constant current and a 65kHz PWM switching frequency.The suggested operating frequency range of PR9853 is within 50KHz to 150KHz.Green Power Operation The power dissipation of switching mode power supply is very important in zero

28、load or light load condition.The major dissipation results from conduction loss、switching loss and consume of the control circuit.However,all of them relates to the switching frequency.There are many difference topologies has been implemented in different chip.The basic operation theory of all these

29、 approaches intends to reduce the switching frequency under light-load or no-load condition.The PR9853s green power function adapts PWM、PFM and CRM combining modulation.When RI resistor is 100k,the PWM frequency is 65kHz in medium or heavy load operation.Through modifying the pulse width,The PR9853

30、could control output voltage.The current of FB pin increases when the load is in light condition and the internal mode controller enters PFM&PWM when the feedback current is over 0.5mA.The operation frequency of oscillator is to descend gradually.When the feedback current is over 0.55mA,the frequenc

31、y of oscillator is invariable,namely 22kHz.PR9853 Green-Power Function To decrease the standby consumption of the power supply,Chip-Rail introduces the Cycle Reset Mode technology(CRM).If the feedback current is over 0.59mA,mode controller of the PR9853 would reset internal register all the time and

32、 cut off the GATE pin.While the output voltage is lower than the set value,the register would be set,the PR9853 Novel Low Cost Green-Power PWM Controller With Low EMI Technique V1.0 7/12 GATE pin operate again.So the frequency of the internal OSC is invariable,the register would reset some pulses so

33、 that the practical frequency is decreased at the GATE pin.Internal Synchronized Slop Compensation Although there are more advantages of the current mode control than conventional voltage mode control,there are still several drawbacks of peak-sensing current-mode converter,especially the open loop i

34、nstability when it operates in higher than 50%of the duty-cycle.To solve this problem,the PR9853 is introduced an internal slope compensation adding voltage ramp to the current sense input voltage for PWM generation.It improves the close loop stability greatly at CCM,prevents the sub-harmonic oscill

35、ation and thus reduces the output ripple voltage.DUTYDUTYDUTYVMAXSLOP4389.033.0 Slop Compensation Current Sensing&Dynamic peak limiting The current flowing by the power MOSFET comes into being a voltage VSENSE on the Sense pin cycle-by-cycle,which compares to the internal reference voltage,and contr

36、ols the reverse of the internal register,limits the peak current IMAX of the primary of the transformer.The transformer energy is 221MAXILE.So adjusting the RSENSE can set the maximal output power of the power supple.The current flowing by the power MOSFET has an extra value(DPINTLVI)due to the syst

37、em delay time that is from detecting the current through the Sense pin to power MOSFET off in the PR9853(Among these,VIN is the primary winding voltage of the transformer and LP is the primary wind inductance).VIN ranges from 85VAC to 264VAC.To guarantee the output power is a constant for universal

38、input AC voltage,there is a dynamic peak limit circuit to compensate the system delay T that the system delay brings on.1.10Duty CycleVsense0.650.700.750.800.850.900.951.001.0510%20%30%40%50%60%70%80%90%0%OLP&SCP To protect the circuit from being damaged under the over load or short circuit conditio

39、n,a smart OLP&SCP function is implemented in the PR9853.When short circuit or over load occurs in the output end,the feedback cycle would enhance the voltage of FB pin,while the voltage is over 3.7V or the current from FB is below 170uA,the internal detective circuit would send a signal to shut down

40、 the GATE and pull down the VDD voltage,then the circuit is restart.To avoid the wrong operation when circuit starts,the delay time is set.When the RI resistance is 100Kohm,the delay time TOLP&SCP is between 33mS and 50mS.The relationship between RI and TOLP&SCP follows the below equation.)(1063)(10

41、623&3mSRITmSRISCPOLP PR9853 Novel Low Cost Green-Power PWM Controller With Low EMI Technique V1.0 8/12 Anti Intermission Surge When the power supplies change the heavy load to light load immediately,there could be tow phenomena caused by system delay.They are output voltage overshot and intermission

42、 surge.To avoid it,the anti intermission surge is built in the PR9853.If it occurs,the FB current is to increase rapidly,the GATE would be cut off for a while,VDD pin voltage descends gradually.When VDD reaches 9.4V,the GATE pin would operate again,which the frequency is 22KHz.Leading-edge Blanking(

43、LEB)Each time the power MOSFET is switched on,a turn-on spike will inevitably occur at the Sense pin,which would disturb the internal signal from the sampling of the RSENSE.There is a 300nS leading edge blanking time built in to avoid the effect of the turn-on spike,and the power MOSFET cannot be sw

44、itched off during the moment.So that the conventional external RC filtering on sense input is no longer required.Over Voltage Protection(OVP)There is a 34V over-voltage protection circuit in the PR9853 to improve the credibility and extend the life of the chip.When the VDD voltage is over 34V,the GA

45、TE pin is to shutdown immediately and the VDD voltage is to descend rapidly.GATE Driver&Soft Clamped The PR9853 output designs a totem pole to drive a periphery power MOSFET.The dead time is introduced to minimize the transfixion current during the output operating.The novel soft clamp technology is

46、 introduced to protect the periphery power MOSFET from breaking down and current saturation of the Zener.Low EMI technique The frequency low EMI technique is introduced in the PR9853.As following figure,the internal oscillation frequency is modulated by itself.A whole surge cycle includes 128 pulses

47、 and the jittering ranges from-4%to+4%.Thus,the function could minimize the electromagnetic interferer from the power supply module.60K65K70KTimeFrequency(HZ)Frequency low EMI PR9853 Novel Low Cost Green-Power PWM Controller With Low EMI Technique V1.0 9/12 Characterization Plots VDD=16V,RI=100Kohm,

48、TA=25 condition applies if not otherwise noted.PR9853 Novel Low Cost Green-Power PWM Controller With Low EMI Technique V1.0 10/12 Package Dimensions DIP-8L Dimensions Millimeters Inches Symbol Min.Typ.Max.Min.Typ.Max.A 5.334 0.210 A1 0.381 0.015 A2 3.175 3.302 3.429 0.125 0.130 0.135 b 1.524 0.060 b

49、1 0.457 0.018 D 9.017 9.271 10.160 0.355 0.365 0.400 E 7.620 0.300 E1 6.223 6.350 6.477 0.245 0.250 0.255 e 2.540 0.100 L 2.921 3.302 3.810 0.115 0.130 0.150 eB 8.509 9.017 9.525 0.335 0.355 0.375 0 7 15 0 7 15 PR9853 Novel Low Cost Green-Power PWM Controller With Low EMI Technique V1.0 11/12 SOT-23

50、-6L Dimensions In Millimeters Dimensions In Inches Symbol Min Max Min Max A 0.700 1.000 0.028 0.039 A1 0.000 0.100 0.000 0.004 B 1.397 1.803 0.055 0.071 b 0.300 0.559 0.012 0.022 C 2.591 3.000 0.102 0.118 D 2.692 3.099 0.106 0.122 e 0.838 1.041 0.033 0.041 H 0.080 0.254 0.003 0.010 L 0.300 0.610 0.0