HA16114P Renesas Electronics Corporation., HA16114P Datasheet

Page 1

...

Page 2

Cautions Keep safety first in your circuit designs! 1. Renesas Technology Corporation puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may ...

Page 3

... Switching Regulator for Chopper Type DC/DC Converter Description The HA16114P/FP/FPJ and HA16120FP/FPJ are single-channel PWM switching regulator controller ICs suitable for chopper-type DC/DC converters. Integrated totem-pole output circuits enable these ICs to drive the gate of a power MOSFET directly. The output logic of the HA16120 is designed to control a DC/DC step-up (boost) converter using an N-channel power MOS FET ...

Page 4

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ • Undervoltage lockout (UVL) • Error amplifier • Vref overvoltage protection (OVP) Features • Wide supply voltage range: 3 • Maximum operating frequency: 600 kHz • Able to drive a power MOS FET (±1 A maximum peak current) by the built-in totem-pole gate pre- driver circuit • ...

Page 5

... Inverting input to current limiter 12 TM Timer setting for intermittent shutdown when overcurrent is detected (sinks timer transistor current) 13 ON/OFF IC on/off control (off below approximately 0 Dead-band duty cycle control input 15 ADJ Reference voltage (Vref) adjustment input 16 Vref 2.5 V reference voltage output HA16114P/PJ/FP/FPJ, HA16120FP/FPJ 1 GND SYNC IN(−) ...

Page 6

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Block Diagram Vref ADJ 16 15 OFF ON/ ADJ V IN 2.5V UVL bandgap H reference L voltage generator OVP Triangle waveform generator 1.6 V 1.0 V Latch reset pulses Bias current 1 2 SYNC GND Note: 1. The HA16120 has an AND gate. Rev.1, Dec. 2000, page OFF ...

Page 7

... Error amplifier output (at E/O) V HA16114 PWM IN pulse output (drives gate of P-channel power MOS FET HA16120 PWM IN pulse output (drives gate of N-channel power MOS FET Note: On duty = T HA16114P/PJ/FP/FPJ, HA16120FP/FPJ 1.6 V typ 1.0 V typ Off Off Off Off Off Off OSC Off Off On On ...

Page 8

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Guide to the Functional Description The description covers the topics indicated below. Oscillator GND* frequency control and OSC SYNC synchronization DC/DC output voltage setting 2. and error amplifier usage Dead-band and 3. soft-start settings P.GND* Output stage and 4. power MOS FET driving method Note: 1. P.GND is a high-current (± ...

Page 9

... At high frequencies the comparator delay causes the sawtooth wave to overshoot the 1.6 V threshold and undershoot the 1.0 V threshold, and changes the dead-band thresholds accordingly. Select constants by testing under implementation conditions. Current mirror 1 External circuit Figure 1.1 Equivalent Circuit of Oscillator HA16114P/PJ/FP/FPJ, HA16120FP/FPJ 3 − − (Hz) × ...

Page 10

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ 1.2 External Synchronization These ICs have a sync input pin so that they can be synchronized to a primary-control AC/DC converter. Pulses from the secondary winding of the switching transformer should be dropped through a resistor voltage divider to the sync input pin. Synchronization takes place at the falling edge, which is optimal for multiple-output power supplies that synchronize with a flyback AC/DC converter ...

Page 11

... DC/DC Output Voltage Setting 1. Positive Output Voltage (V O HA16114 with step-down topology IN(−) OUT − IN(+) + GND Vref Negative Output Voltage (V HA16114P/PJ/FP/FPJ, HA16120FP/FPJ > Vref) HA16120 with step-down (boost) topology IN(−) IN(+) − Vref × Figure 2.1 Output Voltage Setting (1) < HA16114 with inverting topology ...

Page 12

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ 2.2 Error Amplifier Usage Figure 2.3 shows an equivalent circuit of the error amplifier. The error amplifier in these ICs is a simple NPN-transistor differential amplifier with a constant-current-driven output circuit. The amplifier combines a wide bandwidth (f stable feedback to be applied when the power supply is designed. Phase compensation is also easy. ...

Page 13

... Since the UVL pull-down resistor in the IC remains on even when the IC is turned off, the sawtooth wave output, error amplifier output, and DB pin are all reset to low voltage. This feature helps in particular to discharge capacitor C capacitance. In intermittent mode (explained on a separate page), this feature enables the IC to soft-start in each on-off cycle. HA16114P/PJ/FP/FPJ, HA16120FP/FPJ < ...

Page 14

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ 4. PWM Output Circuit and Power MOSFET Driving Method These ICs have built-in totem-pole push-pull drive circuits that can drive a power MOS FET as shown in figure 4.1. The power MOS FET can be driven directly through a gate protection resistor exceeds the gate breakdown voltage of the power MOS FET additional protective measures should be IN taken, e ...

Page 15

... The design values of R and R are 25 kΩ with a tolerance of ±25 trimming is not performed, the ADJ pin open can be left open. Figure 5.2 Simplified Diagram of Voltage Reference Circuit HA16114P/PJ/FP/FPJ, HA16120FP/FPJ OFF ON/ − + 1.25 V 1.25 V Figure 5.1 Vref Reference Circuit and the ratio of internal resistors R ...

Page 16

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ The relation between Vref and the ADJ pin enables Vref to be trimmed by inserting one external resistor (R ) between the Vref and ADJ pins and another (R 3 resistance ratio. Vref is then determined by the combined resistance ratio of the internal R external R and × ...

Page 17

... Keep this in mind when designing the power supply unit. When undervoltage lockout and intermittent mode are both used, the intermittent-mode time constant is shortened, so the constants of external components may have to be altered. HA16114P/PJ/FP/FPJ, HA16120FP/FPJ ) of 10 µA, while the HA16120 draws a maximum 150 µA. The OFF ...

Page 18

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ TM R (open) C OFF ON Vref OFF ON 0 ON/ 7. Timing of Intermittent Mode during Overcurrent 7.1 Principle of Operation These ICs provide pulse-by-pulse overcurrent protection by sensing the current during each pulse and shutting off the pulse if overcurrent is detected. In addition, the TM and ON/OFF pins can be used to operate the IC in intermittent mode if the overcurrent state continues ...

Page 19

... Note that with the connections shown in the diagram, when until T has elapsed. OFF Sawtooth wave PWM output (In case of HA16114) Note: On duty is the percent of time the IC output is on during one PWM cycle when the pulse-by-pulse current limiter is operating. HA16114P/PJ/FP/FPJ, HA16120FP/FPJ only) OFF OFF OFF OFF ON ...

Page 20

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ 7.4 Examples of Intermittent Mode Timing (calculated values) ( × OFF ON 1 ON/ Here, coefficient 1 = 0.69 × − On duty from section 7.3 (1) previously. Example OFF ON 2.2 kΩ, and the on duty B of the current limiter is 75%, then T ON Figure 7.4 Examples of Intermittent Mode Timing (1) ...

Page 21

... With the values shown in the diagram, the peak current is: 0.2 V − (240 Ω + 0.05 Ω) × 200 µ 0.05 Ω The filter cutoff frequency is calculated as follows 6.28 × 1800 pF × 240 Ω 2π HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Example of step-up circuit OUT V (CL) TH Figure 7.6 BCL is a voltage refered on GND 1800 pF ...

Page 22

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Absolute Maximum Ratings (Ta = 25°C) Item Symbol Supply voltage V Output current (DC Output current (peak Current limiter input voltage V Error amplifier input voltage V E/O input voltage V RT source current sink current I TM SYNC voltage V SYNC current I SYNC Power dissipation P Operating temperature ...

Page 23

... Output source current PWM Low level threshold comparator voltage section High level threshold voltage Threshold difference Note: 1. Resistors connected to ON/OFF pin 390 kΩ pin 2 kΩ 13 ON/ HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Symbol Min Typ Max Vref 2.45 2.50 2.55 Line — Load — — ...

Page 24

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Electrical Characteristics (cont.) (Ta = 25° 100 kHz) IN OSC Item Error Input offset voltage amplifier Input bias current section Output sink current Output source current Common-mode input voltage range Voltage gain Unity gain bandwidth High level output voltage Low level output ...

Page 25

... ON/OFF sink current 1 section ON/OFF sink current threshold IC off threshold ON/OFF threshold difference Total Operating current device Quiescent current Notes: 1. HA16114 only. 2. HA16120 only. × 100 External sync pulse t 1 HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Symbol Min Typ Max V — 0.9 1 –2.2 V –1.6 — OH1 –2.2 V – ...

Page 26

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Characteristic Curves Reference Voltage vs. Supply Voltage 4 25°C 3.0 2.5V 2.0 1.0 0 Supply voltage (V) Low Level Threshold Voltage of Sawtooth Wave vs. Frequency 2 25° kΩ 2.0 T 1.5 1.0 0.5 0.0 100 200 300 400 Frequency (kHz) Rev.1, Dec. 2000, page Reference Voltage vs ...

Page 27

... 100 kHz OSC 5 0 −5 −10 − Ambient temperature (°C) Error Amplifier Gain, Error Amplifier Phase vs. Error Amplifier Input Frequency Error amplifier input frequency f HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Oscillator Frequency Change with Ambient Temperature ( 350 kHz OSC 5 SPEC 0 −5 −10 − φ 100 k ...

Page 28

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Error Amplifier Voltage Gain vs. Ambient Temperature kHz typ min 40 − Ambient temperature (°C) Current Limiter Threshold Voltage vs. Ambient Temperature 0.22 0.22 max 0.21 0.20 0.19 0.18 min 0.18 − Ambient temperature (°C) Rev.1, Dec. 2000, page Current Limiter Turn-Off Time vs. ...

Page 29

... Ta = 25° 500 f = 100 kHz OSC 400 300 200 100 0 0 1000 2000 3000 Load capacitance (pF) HA16114P/PJ/FP/FPJ, HA16120FP/FPJ IC On/Off Voltages vs. Ambient Temperature 2.0 1.5 1.0 0.5 0.0 −20 2.0 2.5 Operating Current vs. Supply Voltage 25° 100 kHz OSC On duty = 50 1000 pF ...

Page 30

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Operating Current vs. Output Duty Cycle 25° 100 kHz OSC 1000 pF L SPEC Output duty cycle (%) PWM Comparator Input vs. Output Duty Cycle (1) 100 • HA16114 OSC 600 kHz 50 kHz 20 300 kHz 0 0.6 0.8 1.0 1 E/O Note: The on-duty of the HA16114 is the proportion of one cycle during which output is low ...

Page 31

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Output pin (Output Resistor) Characteristics 12 • HA16114 Output high voltage 11 when on 10 Output high voltage when off 9 • HA16120 3 Output low voltage 2 when on Output low voltage 1 when off sink or Io source (mA) VGS (P-channel Power MOS FET) VGS (N-channel Power MOS FET) ...

Page 32

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Output Waveforms: Rise of Output Voltage OUT 5 (V) 0 400 200 (mA) −200 −400 Output Waveforms: Fall of Output Voltage OUT 5 (V) 0 400 200 (mA) −200 −400 Rev.1, Dec. 2000, page OUT Vref DB CL(−) V IN(+) kΩ 1300 pF Test Circuit 200 ns/div OUT Vref DB CL(− ...

Page 33

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Oscillator Frequency vs. Timing Capacitance 1000 100 100kΩ 300kΩ 1MΩ 0 Timing capacitance 3kΩ 10kΩ 30kΩ (pF) T Rev.1, Dec. 2000, page ...

Page 34

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Application Examples (1) Rev.1, Dec. 2000, page ...

Page 35

... Diode D prevents reverse current. Always insert a diode here. Use a general-purpose switching diode. • Resistors R and R form a voltage divider to ensure that the input voltage swing at the 1 2 does not exceed Vref (2.5 V). To maintain operating speed, R HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Transformer 1S2076A 1S2076A ...

Page 36

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Application Examples (3) • External Synchronization with Primary-Control AC/DC Converter (cont.) (2) Combination with a forward AC/DC converter (simplified schematic) DFG1C8 D Input C A HA16107, HA16666 etc. Switching transformer Coil A Primary, for main Coil B Secondary, for output Coil C Tertiary, for IC Coil D For reset This circuit illustrates the combination of the HA16114/120 with a forward AC/DC converter ...

Page 37

... V DC/DC output (example for positive voltage) IC operation status Power- Note: 1. This PWM pulse is on the step-down/inverting control channel (HA16114). The booster control channel (HA16120) output consists of alternating L and H of the IC on cycle. HA16114P/PJ/FP/FPJ, HA16120FP/FPJ OFF ON/ 1 Off Pulse-by-pulse ...

Page 38

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Application Examples (4) (Some Pointers on Use) 1. Inductor, Power MOS FET, and Diode Connections 1. Step-up topology OUT GND 3. Inverting topology OUT GND 2. Turning Output On and Off while the turn only one channel off, ground the DB pin or the E/O pin. In the case of E/O, however, there will be no soft start when the output is turned back on ...

Page 39

... Max 2.54 ± 0.25 10.5 Max 16 1 0.80 Max 1.27 *0.42 ± 0.08 0.40 ± 0.06 *Dimension including the plating thickness Base material dimension HA16114P/PJ/FP/FPJ, HA16120FP/FPJ 19.20 20.00 Max 9 8 1.3 0.48 ± 0.10 Hitachi Code JEDEC JEITA Mass (reference value) 10 ...

Page 40

... HA16114P/PJ/FP/FPJ, HA16120FP/FPJ Disclaimer 1. Hitachi neither warrants nor grants licenses of any rights of Hitachi’s or any third party’s patent, copyright, trademark, or other intellectual property rights for information contained in this document. Hitachi bears no responsibility for problems that may arise with third party’s rights, including intellectual property rights, in connection with use of the information contained in this document ...