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STK4040XI Dataheets PDF



Part Number STK4040XI
Manufacturers Sanyo
Logo Sanyo
Description AF Power Amplifier
Datasheet STK4040XI DatasheetSTK4040XI Datasheet (PDF)

Ordering number : EN4621A Thick Film Hybrid IC STK4040XI AF Power Amplifier (Split Power Supply) (70 W min, THD = 0.008%) Features • Compact packaging supports slimmer set designs • Series designed from 50 up to 150 W and pincompatibility • Simpler heat sink design facilitates thermal design of slim stereo sets • Current mirror circuit, cascade circuit and purecomplimentary circuit application reduce distortion to 0.008 % • Supports addition of electronic circuits for thermal shutdown and loa.

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Ordering number : EN4621A Thick Film Hybrid IC STK4040XI AF Power Amplifier (Split Power Supply) (70 W min, THD = 0.008%) Features • Compact packaging supports slimmer set designs • Series designed from 50 up to 150 W and pincompatibility • Simpler heat sink design facilitates thermal design of slim stereo sets • Current mirror circuit, cascade circuit and purecomplimentary circuit application reduce distortion to 0.008 % • Supports addition of electronic circuits for thermal shutdown and load-short protection circuit as well as pop noise muting which occurs when the power supply switch is turned on and off. Package Dimensions unit: mm 4075 [STK4040XI] Specifications Maximum Ratings at Ta = 25°C Parameter Maximum supply voltage Thermal resistance Junction temperature Operating substrate temperature Storage temperature Available time for load shorted Symbol VCC max θj-c Tj Tc Tstg ts *1 VCC = ± 43.5 V, RL = 8 Ω, f = 50 Hz, PO = 70 W Condition Rating ± 63 1.4 150 125 –30 to +125 1 Unit V °C/W °C °C °C s Recommended Operational Conditions at Ta = 25°C Parameter Recommended supply voltage Load resistance Symbol VCC RL Condition Rating ± 43.5 8 Unit V Ω SANYO Electric Co.,Ltd. Semiconductor Bussiness Headquarters TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110 JAPAN N3096HA (OT)/O2093YO 5-2189 No. 4621-1/5 STK4040XI Operating Characteristics at Ta = 25°C, VCC = ± 43.5 V, RL = 8 Ω, VG = 40 dB, Rg = 600 Ω, 100 k LPF ON, RL (non-inductive) Rating Parameter Quiescent current Output power Total harmonic distortion Frequency response Input resistance Output noise voltage Neutral voltage Symbol ICCO PO THD fL, fH ri VNO*2 VN Condition VCC = ± 52.5 V THD = 0.008 %, f = 20 Hz to 20 kHz PO = 1.0 W, f = 1 kHz +0 PO = 1.0 W, dB –3 PO = 1.0 W, f = 1 kHz VCC = ± 52.5 V, Rg = 10 kΩ VCC = ± 52.5 V –70 0 20 to 50k 55 1.2 + 70 min 15 70 0.008 typ max 120 Unit mA W % Hz kΩ mVrms mV Note: Use rated power supply for test unless otherwise specified. *1 When measuring permissible load short time and output noise voltage use transformer power supply indicated below. *2 Output noise voltage represents the peak value on the rms scale (VTVM). The noise voltage waveform does not include the pulse noise. Specified Transformer Power Supply (MG-200 Equivalent) Equivalent Circuit No. 4621-2/5 STK4040XI Application Circuit: 70W min Single Channel AF Power Amplifier Sample Printed Circuit Pattern for Application Circuit (Copper-foiled side) No. 4621-3/5 STK4040XI Description of External Parts R1, C1 C2 : Input filter circuit • Reduces high-frequency noise. : Input coupling capacitor • DC current suppression. A reduction in reactance is effective because of increases in capacitor reactance at low frequencies and 1/f noise dependence on signal source resistance which result in output noise worsening. : Input bias resistor • Biases the input pin to zero. • Effects VN stability (refer to NF circuit). • Due to differential input, input resistance is more or less determined by this resistance value. : NFB circuit (AC NF circuit). Use of resistor with 1% error is suggested. R2 R4, R5 C3 (R2) R3 R6, R7 R7, C4 C6, C9 C8 C5 R8, C10 R9, C13 C11, C12 : : : : : : : : : R10 : • VG settings are obtained using R4 and R5 according to the following equation: R log20· 5 40 dB is recommended. R4 • Low-frequency cutoff frequency settings are obtained using R 4 and C3 according to the following equation: 1 fL = [Hz] 2π·R4·C3 When changing the VG setting, you should change R4 which requires a recheck of the low cutoff frequency setting. When the VG setting is changed using R5, the setting should ensure R2 equals R5 so that VN balance stability is maintained. If the resistor value is increased more than the existing value, VN balance may be disturbed and result in deterioration of VN temperature characteristics. Differential constant-current bias resistor For oscillation suppression and phase compensation applications (For use with differential stage applications) For oscillation suppression and phase compensation applications (A Mylar capacitor is recommended for C4 for use with output stage applications) For oscillation suppression and phase compensation applications Power stage (Must be connected near the pin) C6: Positive (+) power C9: Negative (–) power For oscillation suppression and phase compensation applications (Oscillation suppression before power step clip) For oscillation suppression and distortion improvement applications Ripple filter circuit on positive (+) side. Ripple filter circuit on negative (–) side. For oscillation suppression applications • Used for reducing power supply impedance to stable IC operation and should be connected near the IC pin. We recommend that you use an electrolytic capacitor. Output resistor Increases load shorting endurance capacity during times of high output. No. 4621-4/5 STK4040XI s No products described or contained herein are intended for use in surgical implants, life-sup.


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