MAX8731EVSYS Maxim Integrated, MAX8731EVSYS Datasheet
MAX8731EVSYS
Specifications of MAX8731EVSYS
Related parts for MAX8731EVSYS
MAX8731EVSYS Summary of contents
Page 1
... THIN QFN 5mm x 5mm ________________________________________________________________ Maxim Integrated Products For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. ♦ 0.5% Battery Voltage Accuracy ♦ 3% Input Current-Limit Accuracy ♦ 3% Charge-Current Accuracy ♦ SMBus 2-Wire Serial Interface ♦ ...
Page 2
SMBus Level 2 Battery Charger with Remote Sense ABSOLUTE MAXIMUM RATINGS DCIN, CSSN, CSIN, FBSA, FBSB to GND..............-0.3V to +28V CSSP to CSSN, CSIP to CSIN, PGND to GND ......-0.3V to +0.3V BST to GND ............................................................-0.3V to +32V BST to ...
Page 3
SMBus Level 2 Battery Charger with ELECTRICAL CHARACTERISTICS (continued 19V, V DCIN LX CSSP CSSN C = 1µ LDO 1µF, C LDO CC REF Figure ...
Page 4
SMBus Level 2 Battery Charger with Remote Sense ELECTRICAL CHARACTERISTICS (continued 19V, V DCIN LX CSSP CSSN C = 1µ LDO 1µF, C LDO CC REF Figure 1; ...
Page 5
SMBus Level 2 Battery Charger with ELECTRICAL CHARACTERISTICS (continued 19V, V DCIN LX CSSP CSSN C = 1µ LDO 1µF, C LDO CC REF Figure ...
Page 6
SMBus Level 2 Battery Charger with Remote Sense ELECTRICAL CHARACTERISTICS ( 19V, V DCIN LX CSSP CSSN C = 1µ LDO 1µF, C LDO CC REF Figure 1; T ...
Page 7
SMBus Level 2 Battery Charger with ELECTRICAL CHARACTERISTICS (continued 19V, V DCIN LX CSSP CSSN C = 1µ LDO 1µF, C LDO CC REF Figure ...
Page 8
SMBus Level 2 Battery Charger with Remote Sense ELECTRICAL CHARACTERISTICS (continued 19V, V DCIN LX CSSP CSSN C = 1µ LDO 1µF, C LDO CC REF Figure 1; ...
Page 9
SMBus Level 2 Battery Charger with ELECTRICAL CHARACTERISTICS (continued 19V, V DCIN LX CSSP CSSN C = 1µ LDO 1µF, C LDO CC REF per Figure 1; T ...
Page 10
SMBus Level 2 Battery Charger with Remote Sense (Circuit of Figure 1, adapter = 19.5V, ChargeVoltage() = 16.8V, ChargeCurrent() = 3.854A, InputCurrent() = 3.584A, T unless otherwise noted.) INPUT CURRENT-LIMIT ERROR vs. INPUT CURRENT-LIMIT SETTING 6 4 MAXIMUM 2 TYPICAL ...
Page 11
SMBus Level 2 Battery Charger with (Circuit of Figure 1, adapter = 19.5V, ChargeVoltage() = 16.8V, ChargeCurrent() = 3.854A, InputCurrent() = 3.584A, T unless otherwise noted.) CHARGE-VOLTAGE ERROR vs. CHARGE-VOLTAGE SETTING 0.6 0.4 0.2 0.0 -0.2 -0.4 -0 ...
Page 12
SMBus Level 2 Battery Charger with Remote Sense (Circuit of Figure 1, adapter = 19.5V, ChargeVoltage() = 16.8V, ChargeCurrent() = 3.854A, InputCurrent() = 3.584A, T unless otherwise noted.) LDO LINE REGULATION NOT SWITCHING -5 -6 ...
Page 13
SMBus Level 2 Battery Charger with PIN NAME 1, 12 GND Analog Ground. Connect directly to the paddle. 2 ACIN AC Adapter Detect Input. ACIN is the input to an uncommitted comparator. 3 REF 4.096V Voltage Reference. Bypass REF with ...
Page 14
SMBus Level 2 Battery Charger with Remote Sense ADAPTER INPUT R1 150kΩ 1µF R3 49.9kΩ LDO INPUT VDD R5 10kΩ KBC SCL SDA R8 10kΩ C4 0.01µF Figure 1. Typical Dual-Battery Application Circuit Detailed Description The typical operating ...
Page 15
SMBus Level 2 Battery Charger with charge current-regulation loop is in control as long as the selected battery voltage is below the charge volt- age set point. When the selected battery voltage reach- es its set point, the voltage-regulation loop ...
Page 16
SMBus Level 2 Battery Charger with Remote Sense Setting Charge Voltage To set the output voltage, use the SMBus to write a 16- bit ChargeVoltage() command using the data format listed in Table 1. The ChargeVoltage() command uses the Write-Word ...
Page 17
SMBus Level 2 Battery Charger with Setting Charge Current To set the charge current, use the SMBus to write a 16- bit ChargeCurrent() command using the data format listed in Table 2. The ChargeCurrent() command uses the Write-Word protocol (see ...
Page 18
SMBus Level 2 Battery Charger with Remote Sense ( ⎡ × I CHARGE = + ⎢ INPUT LOAD ⎢ V ⎣ IN where η is the efficiency of the DC-DC converter (typi- cally 85% to 95%). To ...
Page 19
SMBus Level 2 Battery Charger with where R is the total resistance in the battery pack, Pack R is the board resistance in series with the battery Board charge path the constant-voltage charge time CV0 without remote sense, ...
Page 20
SMBus Level 2 Battery Charger with Remote Sense SMBus Interface The MAX8731 receives control inputs from the SMBus interface. The MAX8731 uses a simplified subset of the commands documented in System Management Bus Specification V1.1, which can be downloaded from ...
Page 21
SMBus Level 2 Battery Charger with LOW HIGH SMBCLK SMBDATA t t SU:STA HD:STA A = START CONDITION B = MSB OF ADDRESS CLOCKED INTO SLAVE C = LSB OF ADDRESS CLOCKED INTO SLAVE D = ...
Page 22
SMBus Level 2 Battery Charger with Remote Sense Table 4. Battery-Charger Command Summary COMMAND COMMAND NAME 0x14 ChargeCurrent() 0x15 ChargeVoltage() 0x3F InputCurrent() 0xFE ManufacturerID() 0xFF DeviceID() Battery-Charger Commands The MAX8731 supports four battery-charger com- mands that use either Write-Word or ...
Page 23
SMBus Level 2 Battery Charger with Clamping the other two control loops close to the low- est control loop ensures fast transition with minimal overshoot when switching between different control loops (see the Compensation section). Continuous-Conduction Mode With sufficient charge ...
Page 24
SMBus Level 2 Battery Charger with Remote Sense The charge-voltage and charge-current regulation loops are independent and compensated separately at the CCV, CCI, and CCS. CCV Loop Compensation The simplified schematic in Figure 7 is sufficient to describe the operation ...
Page 25
SMBus Level 2 Battery Charger with C is also much lower impedance than R OUT crossover so the parallel impedance is mostly capaci- tive and: ⋅ ≅ + × OUT L If ...
Page 26
SMBus Level 2 Battery Charger with Remote Sense The loop-transfer function is given by: = × × × LTF GMI OUT CSI This describes a single-pole system. Since OUT × CSI ...
Page 27
SMBus Level 2 Battery Charger with The crossover frequency is given by: GMS = 2π For stability, choose a crossover frequency lower than 1/10 the switching frequency: = × π GMS /( ...
Page 28
SMBus Level 2 Battery Charger with Remote Sense where t is the driver’s transition time and can be TRANS calculated as follows: ⎛ ⎞ ⎟ × t ⎜ , TRANS ⎝ ⎠ I ...
Page 29
SMBus Level 2 Battery Charger with Input Capacitor Selection The input capacitor must meet the ripple current requirement (I ) imposed by the switching currents. RMS Nontantalum chemistries (ceramic, aluminum, or OS- CON) are preferred due to their resilience to ...
Page 30
SMBus Level 2 Battery Charger with Remote Sense Good PC board layout is required to achieve specified noise immunity, efficiency, and stable performance. The PC board layout artist must be given explicit instruc- tions—preferably, a sketch showing the placement of ...
Page 31
SMBus Level 2 Battery Charger with (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to www.maxim-ic.com/packages.) D D/2 MARKING AAAAA PIN # 1 I.D. C -DRAWING NOT ...
Page 32
... Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. 32 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 © 2006 Maxim Integrated Products ...