19-589; Rev 1; 5/8 PART TEMP RANGE P-PACKAGE ATP+ -4 C to +125 C 2 TQFN-EP* *.1μF +5.5V TO +4V ILED +5V REG.1μF.1μF +5.5V TO +4V +5V REG ILED.1μF RSSE PWM MG RSSE ANALOG CONTROL PWM MG PWM CONTROL MG 本データシートは日本語翻訳であり 相違及び誤りのある可能性があります 設計の際は英語版データシートを参照してください 価格 納期 発注情報については Maxim Direct (12-55156) にお問い合わせいただくか Maxim のウェブサイト (japan.maximintegrated.com) をご覧ください
ABSOLUTE MAXIMUM RATGS to...-.3v to +45V,, to...-.3v to (V +.3V) Slew Rate (2V < V < 45V)...25mV/μs, to...-.3v to +6V to...-.3v to +.3V Short Circuited to Duration (at V < +16V)...1hour Maximum Current Into Any Pin (except and )...±2mA Continuous Power Dissipation (T A = +7 C) 2-Pin TQFN (derate 34.5mW/ C above +7 C)...2758.6mW Operating Temperature Range...-4 C to +125 C Junction Temperature...+15 C Storage Temperature Range...-65 C to +15 C Lead Temperature (soldering, 1s)...+3 C Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. ELECTRICAL CHARACTERISTICS (V = V = 12V, C =.1μF, I =, =, R SSE =.56Ω (see the Typical Operating Circuit), V = 4V, T A = T J = -4 C to +125 C, unless otherwise noted. Typical values are at T A = T J = +25 C.) (Note 1) PARAMETER SYMBOL CONDITIONS M TYP MAX UNITS Supply Voltage Range V (Note 2) 5.5 4. V Ground Current I G I LOAD = 35mA 2.5 4.5 ma Shutdown Supply Current I SHDN V.3V 12 4 μa Guaranteed Output Current I R SSE =.55Ω 35 ma Output Current Accuracy 35mA < I < 35mA, not including R SSE tolerance I = 35mA, 12V < V < 4V.4 1.2 Dropout Voltage (Note 3) ΔV DO I = 35mA, 6.5V < V < 12V.5 1.5 3 % V Output Current Slew Rate Current rising, rising to 4V 17 (External PWM Signal at ) Current falling, falling to.6v 17 ma/μs Short-Circuit Current V = V 6 ma ABLE PUT Input Current I 1 na Input-Voltage High V IH 2.8 V Input-Voltage Low V IL.6 V Enable Turn On Time t ON rising edge to 9% of 25 μs CURRT SSE (Note 4) Regulated R SSE Voltage V RSSE V SSE = V - V 192 198 24 mv Input Current () V = 22mV +14 μa Input Current () V = 22mV -75 μa TERNAL RAMP GERATOR Internal Ramp Frequency f RAMP 18 2 22 Hz External Sync Frequency Range f 8 2 Hz External Sync Voltage Low.4 V External Sync Voltage High 2.8 V EXTERNAL PWM MG PUT Input Current 1 μa Turn-On Time t ON After rising to 4V (Note 5) 28 52 μs Turn-Off Time t OFF After falling to.6v (Note 5) 19 38 μs 2 Maxim Integrated
ELECTRICAL CHARACTERISTICS (continued) (V = V = 12V, C =.1μF, I =, =, R SSE =.56Ω (see the Typical Operating Circuit), V = 4V, T A = T J = -4 C to +125 C, unless otherwise noted. Typical values are at T A = T J = +25 C.) (Note 1) PARAMETER SYMBOL CONDITIONS M TYP MAX UNITS THERMAL PROTECTION Thermal-Shutdown Temperature T J(SHDN) +155 C Thermal-Shutdown Hysteresis 23 C +5V REGULATOR Output Voltage Regulation I 2mA 4.8 5.1 5.4 V Short-Circuit Current = V (Note 6) 12 ma Note 1: All devices are 1% production tested at T A = +25 C. Limits over the operating temperature range are guaranteed by design. Note 2: Resistors were added from to to aid with the power dissipation during testing. Note 3: Dropout is measured as follows: Connect a resistor from to. Connect R SSE =.56Ω from to. Set V = V +3V (record V as V 1 ). Reduce V until V =.97 x V 1 (record as V 2 and V 2 ). ΔV DO = V 2 - V 2. Note 4: I = ma. Note 5: t ON time includes the delay and the rise time needed for I to reach 9% of its final value. t OFF time is the time needed for I to drop below 1%. See the Typical Operating Characteristics. t ON and t OFF are tested with 13Ω from to. Note 6: Thermal shutdown does not function if the output of the 5V reference is shorted to ground. Shorting to disables the output. (V = 12V, V = V, C =.1μF, I =, =, R SSE =.56Ω, connect to, V = 4V, T A = +25 C, unless otherwise noted.) PUT CURRT (ma) 45 4 35 3 25 2 15 1 5 PUT CURRT vs. TEMPERATURE ILOAD = 35mA ILOAD = 2mA ILOAD = 1mA ILOAD = 35mA -4-25 -1 5 2 35 5 65 8 95 11 125 TEMPERATURE ( C) toc1 (V - V) (V) (V - V ) vs. PUT CURRT.23.22 V = 12V.21.2.199.198.197.196.195.194.193 2 5 8 11 14 17 2 23 26 29 32 35 PUT CURRT (ma) toc2 PUT CURRT (ma) 4 35 3 25 2 15 1 5 PUT CURRT vs. PUT VOLTAGE I = 35mA I = 1mA 2 4 6 8 1 12 14 16 PUT VOLTAGE (V) toc3 Maxim Integrated 3
(V = 12V, V = V, C =.1μF, I =, =, R SSE =.56Ω, connect to, V = 4V, T A = +25 C, unless otherwise noted.) DROP VOLTAGE (V) 1..9.8.7.6.5.4.3.2.1 DROP VOLTAGE vs. TEMPERATURE -4-25 -1 5 2 35 5 65 8 95 11 125 TEMPERATURE ( C) V = 12V ILOAD = 35mA toc4 SHUTDOWN CURRT (μa) 4 35 3 25 2 15 1 5 V = 4V V = 12V V = 6.5V SHUTDOWN CURRT vs. TEMPERATURE -4-25 -1 5 2 35 5 65 8 95 11 125 TEMPERATURE ( C) V = 2V toc5 +5V REGULATOR PUT (V) 5.2 5.15 5.1 5.5 +5V REGULATOR PUT vs. TEMPERATURE ILOAD = 1mA ILOAD = 2mA NO LOAD V = 12V 5. -4-25 -1 5 2 35 5 65 8 95 11 125 TEMPERATURE ( C) toc6 +5V REGULATOR PUT (V) 5.2 5.15 5.1 5.5 +5V REGULATOR PUT vs. V NO LOAD ILOAD = 2mA ILOAD = 1mA toc7 (V - V) (V).199.1989.1988.1987.1986.1985.1984.1983.1982 (V - V) vs. I ILOAD = 35mA V = 12V toc8 2Hz MED OPERATION I LOAD = 35mA V = 12V PULSED AT 2Hz (1% DUTY CYCLE) toc9 V 2V/div V I LOAD 2mA/div A.1981 5. 5 1 15 2 25 3 35 4 V (V).198 1 2 3 4 5 6 7 8 9 1 I (ma) 2μs/div LED CURRT FALL TIME (EXPANDED) toc1 LED CURRT RISE TIME (EXPANDED) toc11 PULSED AT 2Hz V 2V/div PULSED AT 2Hz V 2V/div V V I LED 2mA/div I LED 2mA/div A A 2μs/div 2μs/div 4 Maxim Integrated
(V = 12V, V = V, C =.1μF, I =, =, R SSE =.56Ω, connect to, V = 4V, T A = +25 C, unless otherwise noted.) PUT CURRT DUTY CYCLE (%) 12 1 8 6 4 2 PUT CURRT DUTY CYCLE vs. ANALOG VOLTAGE V = 12V toc12 I (μa) 3 25 2 15 1 5 V = 16V I vs. V toc13 1 2 3 4 ANALOG VOLTAGE (V) 2 4 6 8 1 12 14 16 V (V) 1, 2 2, 3 μ 4, 9, 11, 18 N.C. 5 8, 1, 16 12, 15 μ 13 14 17 19 EP Maxim Integrated 5
TRIMMED BANDGAP 1.25V REGULATOR I_ REG DIFFERTIAL SSE AMPLIFIER THERMAL SHUTDOWN 21mV 2Hz RAMP GERATOR MUX POR PULSE DETECTOR ± 6 Maxim Integrated
μ Δ Δ V STOP D1 THEATER MG SIGNAL +5V REG.1μF RSSE TAIL R1 R2 D2 D4 D3 R SSE Maxim Integrated 7
V C1 PWM MG C2 RT R2 R1 V C1 PWM MG C2 Q1 R SSE 8 Maxim Integrated
ANALOG OR PWM CONTROL SIGNAL V C1 1 2 3 2 19 18 17 N.C. 16 15 14 13 R SSE 4 N.C. 12 5 N.C. 6 7 8 9 N.C. 1 11 C2 TOP VIEW 15 14 13 12 11 16 1 17 9 N.C. N.C. 18 8 19 7 2 + 6 1 2 3 TH QFN N.C. 4 5 N.C. PROCESS: BiCMOS japan.maxim-ic.com/packages 2 TQFN T255MN-5 21-14 Maxim Integrated 9
7/6 1 5/8 7 マキシム ジャパン株式会社 141-32 東京都品川区大崎 1-6-4 大崎ニューシティ 4 号館 2F TEL: 3-6893-66 Maximは完全にMaxim 製品に組込まれた回路以外の回路の使用について一切責任を負いかねます 回路特許ライセンスは明言されていません Maximは随時予告なく回路及び仕様を変更する権利を留保します Electrical Characteristics ( 電気的特性 ) の表に示すパラメータ値 (min maxの各制限値 ) は このデータシートの他の場所で引用している値より優先されます 1 Maxim Integrated Products, Inc. 16 Rio Robles, San Jose, CA 95134 USA 1-48-61-1 28 Maxim Integrated Products MaximはMaxim Integrated Products, Inc. の登録商標です