LM4836MTE National Semiconductor, LM4836MTE Datasheet
LM4836MTE
Specifications of LM4836MTE
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LM4836MTE Summary of contents
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... Note 1: When properly mounted to the circuit board, the LM4836LQ and LM4836MTE will deliver 2W into 4Ω. The LM4836MT will deliver 1.1W into 8Ω. See the Application Information section for LM4836LQ and LM4836MTE usage information. ...
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... Absolute Maximum Ratings If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. Supply Voltage Storage Temperature Input Voltage Power Dissipation (Note 13) ESD Susceptibility (Note 14) ESD Susceptibility (Note 15) Junction Temperature Soldering Information Vapor Phase (60 sec.) Infrared (15 sec.) See AN-450 “ ...
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... Note 8: All voltages are measured with respect to the ground pins, unless otherwise specified. All specifications are tested using the typical application as shown in Figure 2. Note 9: When driving 3Ω loads and operating supply the LM4836MTE exposed DAP must be soldered to the circuit board and forced-air cooled. Note 10: When driving 4Ω loads and operating supply the LM4836MTE exposed DAP must be soldered to the circuit board. ...
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www.national.com 4 ...
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... Inputs Selected 0 Left In 1, Right Left In 1, Right Left In 2, Right Left In 2, Right 10108870 10108872 5 Bridged Output Single-Ended Output Vol. Adjustable - Muted Vol. Adjustable Vol. Adjustable - Muted Vol. Adjustable Muted Muted LM4836MTE THD+N vs Frequency 10108871 LM4836MTE THD+N vs Frequency 10108873 www.national.com ...
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... Typical Performance Characteristics MTE Specific Characteristics LM4836MTE Power Dissipation vs Output Power LM4836MTE (Note 19) Power Derating Curve Note 19: These curves show the thermal dissipation ability of the LM4836MTE at different ambient temperatures given these conditions: 2 500LFPM + 2in : The part is soldered to a 2in 2 2in on bottom: The part is soldered to a 2in ...
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Typical Performance Characteristics Non-MTE Specific Characteristics THD+N vs Frequency THD+N vs Frequency THD+N vs Frequency 10108857 10108814 10108816 7 THD+N vs Frequency 10108858 THD+N vs Frequency 10108815 THD+N vs Frequency 10108817 www.national.com ...
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Typical Performance Characteristics Non-MTE Specific Characteristics THD+N vs Frequency THD+N vs Frequency THD+N vs Frequency www.national.com (Continued) THD+N vs Frequency 10108818 THD+N vs Frequency 10108820 THD+N vs Output Power 10108822 8 10108819 10108821 10108824 ...
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Typical Performance Characteristics Non-MTE Specific Characteristics THD+N vs Output Power THD+N vs Output Power THD+N vs Output Power (Continued) THD+N vs Output Power 10108825 THD+N vs Output Power 10108827 THD+N vs Output Power 10108829 9 10108826 10108828 10108830 www.national.com ...
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Typical Performance Characteristics Non-MTE Specific Characteristics THD+N vs Output Power THD+N vs Output Power THD+N vs Output Voltage Docking Station Pins www.national.com (Continued) THD+N vs Output Power 10108831 THD+N vs Output Power 10108833 THD+N vs Output Voltage Docking Station Pins ...
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Typical Performance Characteristics Non-MTE Specific Characteristics Output Power vs Load Resistance Output Power vs Load Resistance Dropout Voltage (Continued) 10108862 10108807 10108853 11 Output Power vs Load Resistance 10108806 Power Supply Rejection Ratio 10108838 Output Power vs Load Resistance 10108808 ...
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Typical Performance Characteristics Non-MTE Specific Characteristics Noise Floor Volume Control Characteristics Power Dissipation vs Output Power www.national.com (Continued) 10108841 10108810 10108852 12 Noise Floor 10108842 Power Dissipation vs Output Power 10108851 External Gain/ Bass Boost Characteristics 10108861 ...
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Typical Performance Characteristics Non-MTE Specific Characteristics Power Derating Curve Crosstalk Output Power vs Supply Voltage (Continued) 10108863 10108850 10108856 13 Crosstalk 10108849 Output Power vs Supply voltage 10108854 Supply Current vs Supply Voltage 10108809 www.national.com ...
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Typical Performance Characteristics Output Power vs Load Resistance Output Power vs Load Resistance Dropout Voltage www.national.com 10108862 10108807 10108853 14 Output Power vs Load Resistance 10108806 Power Supply Rejection Ratio 10108838 Output Power vs Load Resistance 10108808 ...
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Typical Performance Characteristics Noise Floor Volume Control Characteristics Power Dissipation vs Output Power (Continued) 10108841 10108810 10108852 15 Noise Floor 10108842 Power Dissipation vs Output Power 10108851 External Gain/ Bass Boost Characteristics 10108861 www.national.com ...
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Typical Performance Characteristics Power Derating Curve Crosstalk Output Power vs Supply Voltage www.national.com (Continued) 10108863 10108850 10108856 16 Crosstalk 10108849 Output Power vs Supply voltage 10108854 Supply Current vs Supply Voltage 10108809 ...
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... LM4836MTE can continuously drive a 3Ω load to full power. The LM4836LQ achieves the same output power level without forced air cooling. In all circumstances and conditions, the junction temperature must be held below 150˚ ...
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Application Information However, a direct consequence of the increased power de- livered to the load by a bridge amplifier is higher internal power dissipation for the same conditions. The LM4836 has two operational amplifiers per channel. The maximum internal power ...
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Application Information the pop is directly proportional to the input capacitor’s size. Higher value capacitors need more time to reach a quiescent DC voltage (usually V /2) when charged with a fixed cur- DD rent. The amplifier’s output charges the ...
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Application Information accommodate this system alert signal, the LM4836’s pin mono input that accepts the beep signal. Internal level detection circuitry at this input monitors the beep signal’s magnitude. When a signal level greater than V tected ...
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Application Information FIGURE 3. Headphone Sensing Circuit BASS BOOST FUNCTION The LM4836 has a bass-boost feature that enhances the low frequency response in applications using small speakers. The voltage level applied to the BASS BOOST SELECT pin controls the bass-boost ...
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Application Information The Output Power vs Supply Voltage graph for an 8Ω load indicates a minimum supply voltage of 4.6V. This is easily met by the commonly used 5V supply voltage. The additional voltage creates the benefit of headroom, allowing ...
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Application Information FIGURE 4. Recommended LQ PC Board Layout: FIGURE 5. Recommended LQ PC Board Layout: (Continued) Component-Side Silkscreen Component-Side Layout 23 10108878 10108879 www.national.com ...
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Application Information www.national.com (Continued) FIGURE 6. Recommended LQ PC Board Layout: Upper Inner-Layer Layout FIGURE 7. Recommended LQ PC Board Layout: Lower Inner-Layer Layout 24 10108880 10108881 ...
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Application Information FIGURE 8. Recommended LQ PC Board Layout: (Continued) Bottom-Side Layout 25 10108882 www.national.com ...
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Physical Dimensions NS Package Number LQA028A for Exposed-DAP LLP www.national.com inches (millimeters) unless otherwise noted LLP Package Order Number LM4836LQ 26 ...
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... Physical Dimensions inches (millimeters) unless otherwise noted (Continued) NS Package Number MXA28A for Exposed-DAP TSSOP TSSOP Package Order Number LM4836MT NS Package Number MTC28 for TSSOP Exposed-DAP TSSOP Package Order Number LM4836MTE 27 www.national.com ...
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... BANNED SUBSTANCE COMPLIANCE National Semiconductor certifies that the products and packing materials meet the provisions of the Customer Products Stewardship Specification (CSP-9-111C2) and the Banned Substances and Materials of Interest Specification (CSP-9-111S2) and contain no ‘‘Banned Substances’’ as defined in CSP-9-111S2. ...