BTS712N1_10

Smart High-Side Power Switch Smart High-Side Power Switch PROFET BTS712N1 Data Sheet Rev 1.3, 2010-03-16 Automotive Power Smart High-Side Power Switch BTS712N1 Smart Four Channel Highside Power Switch Features • Overload protection • Current limitation • Short-circuit protection • Thermal shutdown • Overvoltage protection (including load dump) • Fast demagnetization of inductive loads • Reverse battery protection1) • Undervoltage and overvoltage shutdown with auto-restart and hysteresis • Open drain diagnostic output • Open load detection in OFF-state • CMOS compatible input • Loss of ground and loss of Vbb protection • Electrostatic discharge (ESD) protection Product Summary Overvoltage Protection Operating voltage active channels: On-state resistance RON Nominal load current ,/120 Current limitation ,/6&U Vbb(AZ) 43 V Vbb(on) 5.0 ... 34 V two parallel four parallel one 200 100 50 mΩ 1.9 2.8 4.4 A 4 4 4 A P-DSO-20 PG-DSO20 Application • µC compatible power switch with diagnostic feedback for 12 V and 24 V DC grounded loads • All types of resistive, inductive and capacitive loads • Replaces electromechanical relays and discrete circuits General Description N channel vertical power FET with charge pump, ground referenced CMOS compatible input and diagnostic  feedback, monolithically integrated in Smart SIPMOS technology. Providing embedded protective functions. Pin Definitions and Functions Pin 1,10, 11,12, 15,16, 19,20 3 5 7 9 18 17 14 13 4 8 2 6 Symbol Function Vbb Positive power supply voltage. Design the wiring for the simultaneous max. short circuit currents from channel 1 to 4 and also for low thermal resistance IN1 Input 1 .. 4, activates channel 1 .. 4 in case of IN2 logic high signal IN3 IN4 OUT1 Output 1 .. 4, protected high-side power output OUT2 of channel 1 .. 4. Design the wiring for the OUT3 max. short circuit current OUT4 ST1/2 Diagnostic feedback 1/2 of channel 1 and channel 2, open drain, low on failure ST3/4 Diagnostic feedback 3/4 of channel 3 and channel 4, open drain, low on failure GND1/2 Ground 1/2 of chip 1 (channel 1 and channel 2) GND3/4 Ground 3/4 of chip 2 (channel 3 and channel 4) Pin configuration (top view) Vbb GND1/2 IN1 ST1/2 IN2 GND3/4 IN3 ST3/4 IN4 Vbb 1 2 3 4 5 6 7 8 9 10 • 20 19 18 17 16 15 14 13 12 11 Vbb Vbb OUT1 OUT2 Vbb Vbb OUT3 OUT4 Vbb Vbb 1) With external current limit (e.g. resistor RGND=150 Ω) in GND connection, resistor in series with ST connection, reverse load current limited by connected load. Data Sheet 2 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 Block diagram Four Channels; Open Load detection in off state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 ,1 ,1 67 &KDQQHO  287  &KDQQHO  287  /RDG  *1' 352)(7 6LJQDO *1' &KLS   /RDG *1' &KLS  /HDGIUDPH FRQQHFWHG WR SLQ         Data Sheet 3 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 Maximum Ratings at Tj = 25°C unless otherwise specified Parameter Supply voltage (overvoltage protection see page 4) Supply voltage for full short circuit protection Tj,start = -40 ...+150°C Load current (Short-circuit current, see page 5) Load dump protection2) VLoadDump = UA + Vs, UA = 13.5 V RI3) = 2 Ω, td = 200 ms; IN = low or high, each channel loaded with RL = 7.1 Ω, Operating temperature range Storage temperature range Power dissipation (DC)5 Ta = 25°C: Ta = 85°C: (all channels active) Inductive load switch-off energy dissipation, single pulse Vbb = 12V, Tj,start = 150°C5), IL = 1.9 A, ZL = 66 mH, 0 Ω one channel: IL = 2.8 A, ZL = 66 mH, 0 Ω two parallel channels: IL = 4.4 A, ZL = 66 mH, 0 Ω four parallel channels: see diagrams on page 9 Symbol Values 43 34 self-limited 60 -40 ...+150 -55 ...+150 3.6 1.9 Unit V V A V °C W Vbb Vbb IL VLoad Tj Tstg Ptot 4) dump EAS 150 320 800 1.0 -10 ... +16 ±2.0 ±5.0 mJ Electrostatic discharge capability (ESD) (Human Body Model) Input voltage (DC) Current through input pin (DC) Current through status pin (DC) see internal circuit diagram page 8 VESD VIN IIN IST kV V mA Thermal resistance junction - soldering point5),6) junction - ambient5) each channel: one channel active: all channels active: Rthjs Rthja 16 44 35 K/W 2) 3) 4) 5) Supply voltages higher than Vbb(AZ) require an external current limit for the GND and status pins, e.g. with a 150 Ω resistor in the GND connection and a 15 kΩ resistor in series with the status pin. A resistor for input protection is integrated. RI = internal resistance of the load dump test pulse generator VLoad dump is setup without the DUT connected to the generator per ISO 7637-1 and DIN 40839 Device on 50mm*50mm*1.5mm epoxy PCB FR4 with 6cm2 (one layer, 70µm thick) copper area for Vbb connection. PCB is vertical without blown air. See page 14 Data Sheet 4 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 Electrical Characteristics Parameter and Conditions, each of the four channels at Tj = 25 °C, Vbb = 12 V unless otherwise specified Symbol Values min typ max Unit Load Switching Capabilities and Characteristics On-state resistance (Vbb to OUT) each channel, Tj = 25°C: RON IL = 1.8 A Tj = 150°C: two parallel channels, Tj = 25°C: four parallel channels, Tj = 25°C: Nominal load current one channel active: two parallel channels active: four parallel channels active: 5), T = 85°C, T ≤ 150°C Device on PCB a j Output current while GND disconnected or pulled up; Vbb = 30 V, VIN = 0, see diagram page 9 Turn-on time to 90% VOUT: Turn-off time to 10% VOUT: RL = 12 Ω, Tj =-40...+150°C Slew rate on 10 to 30% VOUT, RL = 12 Ω, Tj =-40...+150°C: Slew rate off 70 to 40% VOUT, RL = 12 Ω, Tj =-40...+150°C: Operating Parameters Operating voltage7) Undervoltage shutdown Undervoltage restart -- 165 320 83 42 1.9 2.8 4.4 -200 200 --- 200 400 100 50 -- mΩ IL(NOM) 1.7 2.6 4.1 -80 80 0.1 0.1 A IL(GNDhigh) ton toff dV/dton -dV/dtoff 10 400 400 1 1 mA µs V/µs V/µs Tj =-40...+150°C: Tj =-40...+150°C: Tj =-40...+25°C: Tj =+150°C: Undervoltage restart of charge pump see diagram page 14 Tj =-40...+150°C: Undervoltage hysteresis ∆Vbb(under) = Vbb(u rst) - Vbb(under) Overvoltage shutdown Tj =-40...+150°C: Overvoltage restart Tj =-40...+150°C: Overvoltage hysteresis Tj =-40...+150°C: Overvoltage protection8) Tj =-40...+150°C: I bb = 40 mA Vbb(on) Vbb(under) Vbb(u rst) Vbb(ucp) ∆Vbb(under) 5.0 3.5 ---34 33 -42 ---5.6 0.2 --0.5 47 34 5.0 5.0 7.0 7.0 -43 ---- V V V V V V V V V Vbb(over) Vbb(o rst) ∆Vbb(over) Vbb(AZ) 7) 8) At supply voltage increase up to Vbb = 5.6 V typ without charge pump, VOUT ≈Vbb - 2 V see also VON(CL) in circuit diagram on page 8. Data Sheet 5 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 Parameter and Conditions, each of the four channels at Tj = 25 °C, Vbb = 12 V unless otherwise specified Symbol Values min typ max ----180 160 0.35 1.2 300 300 0.8 2.8 Unit µA Standby current, all channels off Tj =25°C: Ibb(off) VIN = 0 Tj =150°C: 9), V = 5V, Operating current IN Tj =-40...+150°C IGND = IGND1/2 + IGND3/4, one channel on: IGND four channels on: mA Protection Functions10) Initial peak short circuit current limit, (see timing diagrams, page 12) each channel, Tj =-40°C: IL(SCp) 5.5 9.5 13 4.5 7.5 11 Tj =25°C: 2.5 4.5 7 Tj =+150°C: two parallel channels twice the current of one channel four parallel channels four times the current of one channel Repetitive short circuit current limit, Tj = Tjt each channel IL(SCr) -4 --4 -two parallel channels -4 -four parallel channels (see timing diagrams, page 12) A A Initial short circuit shutdown time Tj,start =-40°C: toff(SC) Tj,start = 25°C: VON(CL) Tjt ∆Tjt -Vbb -VON ---150 ---- 48 29 47 -10 -610 -----32 -- ms (see page 10 and timing diagrams on page 12) Output clamp (inductive load switch off)11) at VON(CL) = Vbb - VOUT Thermal overload trip temperature Thermal hysteresis Reverse Battery Reverse battery voltage 12) Drain-source diode voltage (Vout > Vbb) IL = - 1.9 A, Tj = +150°C Diagnostic Characteristics Open load detection current Open load detection voltage V °C K V mV IL(off) Tj =-40..+150°C: VOUT(OL) -2 30 3 -4 µA V 9) Add IST, if IST > 0 Integrated protection functions are designed to prevent IC destruction under fault conditions described in the data sheet. Fault conditions are considered as "outside" normal operating range. Protection functions are not designed for continuous repetitive operation. 11) If channels are connected in parallel, output clamp is usually accomplished by the channel with the lowest VON(CL) 12) Requires a 150 Ω resistor in GND connection. The reverse load current through the intrinsic drain-source diode has to be limited by the connected load. Note that the power dissipation is higher compared to normal operating conditions due to the voltage drop across the intrinsic drain-source diode. The temperature protection is not active during reverse current operation! Input and Status currents have to be limited (see max. ratings page 3 and circuit page 8). 10) Data Sheet 6 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 Parameter and Conditions, each of the four channels at Tj = 25 °C, Vbb = 12 V unless otherwise specified Symbol Values min typ max Unit Input and Status Feedback13) Input resistance (see circuit page 8) Tj =-40..+150°C: Tj =-40..+150°C: RI VIN(T+) VIN(T-) 2.5 1.7 1.5 -1 20 -- 3.5 --0.5 -50 220 6 3.5 --50 90 -- kΩ V V V µA µA µs Input turn-on threshold voltage Input turn-off threshold voltage Tj =-40..+150°C: Input threshold hysteresis Off state input current Tj =-40..+150°C: On state input current Tj =-40..+150°C: Delay time for status with open load (see timing diagrams, page 12) ∆ VIN(T) VIN = 0.4 V: IIN(off) VIN = 5 V: IIN(on) td(ST OL3) Status output (open drain) Zener limit voltage Tj =-40...+150°C, IST = +1.6 mA: VST(high) Tj =-40...+25°C, IST = +1.6 mA: VST(low) ST low voltage Tj = +150°C, IST = +1.6 mA: 5.4 --- 6.1 --- -0.4 0.6 V 13) If ground resistors RGND are used, add the voltage drop across these resistors. Data Sheet 7 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 Truth Table Channel 1 and 2 Channel 3 and 4 (equivalent to channel 1 and 2) Normal operation Chip 1 Chip 2 IN1 IN3 IN2 IN4 OUT1 OUT3 OUT2 OUT4 ST1/2 ST3/4 BTS 711L1 ST1/2 ST3/4 BTS 712N1 H H H H L H H L H H L15) H H L15) H H H L L H L H L H Open load Channel 1 (3) L L H H L L H L H X L L H L H X L X H L H X X X L H L H L H X L L H L H X L L H L H X X X L H X L L H H Z Z H L H X H H H L H X L L L L L X X L L H L H L H X Z Z H L H X H H H L L L X X L L L H H H H H(L14)) H L H(L14)) H L L15) H H(L16)) L15) H H(L16)) H L L H L H L H Channel 2 (4) Short circuit to Vbb Channel 1 (3) Channel 2 (4) Overtemperature both channel Channel 1 (3) Channel 2 (4) Undervoltage/ Overvoltage L = "Low" Level H = "High" Level X = don't care Z = high impedance, potential depends on external circuit Status signal valid after the time delay shown in the timing diagrams Parallel switching of channel 1 and 2 (also channel 3 and 4) is easily possible by connecting the inputs and outputs in parallel (see truth table). If switching channel 1 to 4 in parallel, the status outputs ST1/2 and ST3/4 have to be configured as a 'Wired OR' function with a single pull-up resistor. Terms 9 ,EE EE , ,1 , ,1 , 67 9 ,1 9,1 967    /HDGIUDPH ,1 ,1 9EE 287 352)(7 &KLS  287  9 21 9 21 , / , / 9 287 , *1' 9287 /HDGIUDPH , ,1 , ,1 , 67 9 ,1 9,1 967    ,1 ,1 9EE 287 352)(7 &KLS  287   9 21 9 21 , / , / 9 287 , *1' 9287  67 *1'  5 *1' 67 *1'  5 *1' Leadframe (Vbb) is connected to pin 1,10,11,12,15,16,19,20 External RGND optional; two resistors RGND1/2 ,RGND3/4 = 150 Ω or a single resistor RGND = 75 Ω for reverse battery protection up to the max. operating voltage. 14) 15) With additional external pull up resistor An external short of output to Vbb in the off state causes an internal current from output to ground. If RGND is used, an offset voltage at the GND and ST pins will occur and the VST low signal may be errorious. 16) Low resistance to V may be detected by no-load-detection bb Data Sheet 8 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 Input circuit (ESD protection), IN1...4 ,1 5 , Overvoltage protection of logic part GND1/2 or GND3/4  9 EE 9 (6'=' , *1' , ,1 5, /RJLF = , 5 67 ,1 67 9 ESD zener diodes are not to be used as voltage clamp at DC conditions. Operation in this mode may result in a drift of the zener voltage (increase of up to 1 V). = *1' 5 *1' 6LJQDO *1' Status output, ST1/2 or ST3/4 9 VZ1 = 6.1 V typ., VZ2 = 47 V typ., RI = 3.5 kΩ typ., RGND = 150 Ω 5 6721 67 Reverse battery protection “ 9  9EE *1' (6' =' 5 67 ,1 67 5, /RJLF ESD-Zener diode: 6.1 V typ., max 5.0 mA; RST(ON) < 380 Ω at 1.6 mA, ESD zener diodes are not to be used as voltage clamp at DC conditions. Operation in this mode may result in a drift of the zener voltage (increase of up to 1 V). 287 3RZHU ,QYHUVH 'LRGH *1' Inductive and overvoltage output clamp, OUT1...4 9EE 9= 9 21 287 5 *1' 6LJQDO *1' 5/ 3RZHU *1' RGND = 150 Ω, RI = 3.5 kΩ typ, Temperature protection is not active during inverse current operation. Open-load detection, OUT1...4 OFF-state diagnostic condition: VOUT > 3 V typ.; IN low 352)(7 3RZHU *1' VON clamped to VON(CL) = 47 V typ. 2)) , /2/ 9 287 /RJLF XQLW 2SHQ ORDG GHWHFWLRQ 6LJQDO *1' Data Sheet 9 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 GND disconnect (channel 1/2 or 3/4) 9 ,EE ,1 ,1 67 9 9 9 ,1 ,1 67 9EE 287 352)(7 287 *1' 9 *1' Inductive load switch-off energy dissipation ( EE ( $6 9EE 352)(7 67 *1' =/ 287 (/RDG EE ,1 ^ 5 / / (/ (5 Any kind of load. In case of IN = high is VOUT ≈ VIN - VIN(T+). Due to VGND > 0, no VST = low signal available. Energy stored in load inductance: EL = 1/2·L·I L While demagnetizing load inductance, the energy dissipated in PROFET is 2 GND disconnect with GND pull up (channel 1/2 or 3/4) EAS= Ebb + EL - ER= VON(CL)·iL(t) dt, 9 ,1 ,1 9 ,1 ,1 67 9EE 287 352)(7 287 *1' with an approximate solution for RL > 0 Ω: EAS= IL· L (V + |VOUT(CL)|) 2·RL bb OQ (1+ |V IL·RL OUT(CL)| ) 9 9 EE 67 9 Maximum allowable load inductance for a single switch off (one channel)5) *1' / I ,/  Tj,start = 150°C, Vbb = 12 V, RL = 0 Ω Any kind of load. If VGND > VIN - VIN(T+) device stays off Due to VGND > 0, no VST = low signal available. L [mH]  Vbb disconnect with energized inductive load  ,1 KLJK ,1 67 9EE 287 352)(7 287 *1'  9 EE For an inductive load current up to the limit defined by EAS (max. ratings see page 3 and diagram on page 9) each switch is protected against loss of Vbb. Consider at your PCB layout that in the case of Vbb disconnection with energized inductive load the whole load current flows through the GND connection.       IL [A] Data Sheet 10 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 Typ. on-state resistance ; IL = 1.8 A, IN = high RON [mOhm] Typ. ground pin operating current VIN = high (one channel on) IGND [mA] Vbb [V] Vbb [V] Typ. standby current ; Vbb = 9...34 V, IN1...4 = low Ibb(off) [µA] Typ. initial short circuit shutdown time ; Vbb =12 V t off(S C ) [ms ec ] 60 50 40 30 20 10 0 40 -25 0 25 50 75 100 125 Tj [°C] Ibb(off) includes four times the current IL(off) of the open load detection current sources. 150 T j, s tart [°C] Data Sheet 11 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 Timing diagrams Timing diagrams are shown for chip 1 (channel 1/2). For chip 2 (channel 3/4) the diagrams are valid too. The channels 1 and 2, respectively 3 and 4, are symmetric and consequently the diagrams are valid for each channel as well as for permuted channels Figure 1a: Vbb turn on: ,1 ,1 9 EE ,1 Figure 2b: Switching an inductive load, 67 9 287 9 287 9 287 , L 67 RSHQ GUDLQ W W Figure 2a: Switching a lamp: ,1 Figure 3a: Turn on into short circuit: shut down by overtemperature, restart by cooling ,1 RWKHU FKDQQHO QRUPDO RSHUDWLRQ 67 , / , 9 287 /6&S , /6&U , / W 67 W RII6& W Heating up of the chip may require several milliseconds, depending on external conditions (toff(SC) vs. Tj,start see page 11) The initial peak current should be limited by the lamp and not by the initial short circuit current IL(SCp) = 7.5 A typ. of the device. Data Sheet 12 Rev 1.3, 2010-03-16 Smart High-Side Power Switch BTS712N1 Figure 3b: Turn on into short circuit: shut down by overtemperature, restart by cooling (two parallel switched channels 1 and 2) ,1 Figure 5a: Open load: detection in OFF-state, turn on/off to open load ,1 ,1 FKDQQHO  QRUPDO RSHUDWLRQ , / , / , /6&S 9287 , /6&U , / FKDQQHO  RSHQ ORDG W 67 RII6& 67 W td(ST,OL3) depends on external circuitry because of high impedance *) IL = 30 µA typ W G67 2/ W d(ST OL3) W Figure 4a: Overtemperature: Reset if Tj