MAX17006BETP+

Analog Devices Inc.
The MAX17005B/MAX17006B/MAX17015B are high-frequency multichemistry battery chargers. These circuits feature a new high-frequency current-mode architecture that significantly reduces component size and cost. The charger uses a high-side MOSFET with n-channel synchronous rectifier. Widely adjustable charge current, charge voltage, and input current limit simplify the construction of highly accurate and efficient chargers.The charge voltage and charge current are set with analog control inputs. The charge current setting can also be adjusted with a PWM input. High-accuracy current-sense amplifiers provide fast cycle-by-cycle current-mode control to protect against short circuits to the battery and respond quickly to system load transients. In addition, the charger provides a high-accuracy analog output that is proportional to the adapter current. In the MAX17015B, this current monitor remains active when the adapter is absent to monitor battery discharge current.The MAX17005B charges three or four Li+ series cells, and the MAX17006B charges two or three Li+ series cells. The MAX17015B adjusts the charge voltage setting and the number of cells through a feedback resistor-divider from the output. All variants of the charger can provide at least 4A of charge current with a 10mΩ sense resistor.The charger utilizes a charge pump to control an n-channel adapter selection switch. The charge pump remains active even when the charger is off. When the adapter is absent, a p-channel MOSFET selects the battery.The MAX17005B/MAX17006B/MAX17015B are available in a small, 4mm x 4mm x 0.8mm 20-pin, lead-free TQFN package. An evaluation kit is available to reduce design time.ApplicationsNotebook ComputersPortable Equipment with Rechargeable BatteriesTablet PCs
Distributor SKU Stock MOQ 1 10 50 100 1,000 10,000
Farnell MAX17006BETP+ 0 75 * $0.00 * $0.00 * $0.00 * $11.46 * $11.46 * $11.46
Mouser Electronics MAX17006BETP+ 0 75 $12.35 $10.99 $9.75
Win Source MAX17006BETP+ 14827 26

MAX17085BETL+T

Analog Devices Inc.
The MAX17085B is an all-in-one notebook power solution integrating a multichemistry battery charger, dual fixed output Quick-PWM™ step-down controllers, and dual keep-alive linear regulators:Charger: The high-frequency (~1.4MHz) multichemistry battery charger uses a current-mode, fixed inductor current ripple architecture that significantly reduces component size and cost. Low-offset sense amplifiers allow the use of low-value sense resistors for charging and input current limit.The charger uses n-channel switching MOSFETs. Adjustable charge current, charge voltage, and cell selection allow for flexible use with different battery packs. Charge current is set by an analog control input, or a PWM input. High-accuracy current-sense amplifiers provide fast cycle-by-cycle current-mode control to protect against short circuits to the battery and respond quickly to system load transients. Additionally, the charger provides a high-accuracy analog output that is proportional to the adapter current.An integrated charge pump controls an n-channel adapter selector switch. The charge pump remains active even when the charger is off. When the adapter is absent, a p-channel MOSFET selects the battery.Main SMPS: The dual Quick-PWM step-down controllers with synchronous rectification generate the 5V and 3.3V main power in a notebook. Low-side MOSFET sensing provides a simple low-cost, highly efficient valley current-limit protection. The MAX17085B also includes output undervoltage, output overvoltage, and thermal-fault protection.Separate enable inputs for each SMPS and a combined open-drain power-good output allow flexible power sequencing. Voltage soft-start reduces inrush current, while passive shutdown discharges the output through an internal switch. Fast transient response, with an extended on-time feature reduces output capacitance requirements. Selectable pulse-skipping mode and ultrasonic mode improve light-load efficiency. Ultrasonic mode operation maintains a minimum switching frequency at light loads, minimizing audible noise effects.Dual LDO Regulators: An internal 5V/100mA LDO5 with switchover can be used to either generate the 5V bias needed for power-up or other lower power 'always-on' suspend supplies. Another 3.3V/50mA LDO3 provides 'always-on' power to a system microcontroller.Applications2-to-4, Li+-Cell, Battery-Powered Devices5V and 3.3V SuppliesNotebook ComputersPDAs and Mobile Communicators
Distributor SKU Stock MOQ 1 10 50 100 1,000 10,000
Farnell MAX17085BETL+T 0 2500 * $0.00 * $0.00 * $0.00 * $0.00 * $0.00 * $6.85
Mouser Electronics MAX17085BETL+T 0 2500 $4.54

MAX8934EETI+

Analog Devices Inc.
The MAX8934_ dual-input Li+/Li-Poly linear battery chargers with Smart Power Selector™ safely charge a single Li+/Li-Poly cell in accordance with JEITA recommendations. The MAX8934_ monitors the battery temperature (TBATT) while charging, and automatically adjusts the fast-charge current and charge termination voltage as the battery temperature varies. The MAX8934_ also monitors the battery temperature while the battery is discharging, and provides a warning flag (active-low OT) to the system in the event that the battery is over temperature. Two safety profiles are supported (see Figure 6 in the full data sheet for details). An ultra-low IQ, always-on LDO provides an additional 3.3V supply for system power.The MAX8934_ operates with either separate inputs for USB and AC adapter power*, or from a single input that accepts both. All power switches for charging and switching the load between battery and external powerare included on-chip. No external MOSFETs are required.The MAX8934_ features a Smart Power Selector to make the best use of limited USB or adapter power. Input current limit and battery charge current limit areindependently set. Input power not used by the system charges the battery. Charge current limit and DC current limit can be set up to 1.5A and 2A, respectively, while USB input current can be set to 100mA or 500mA for theMAX8934A/MAX8934B/MAX8934C/MAX8934E and up to 1.5A (max) for the MAX8934D. Automatic input selection switches the system load from battery to external power.The MAX8934A provides a SYS output voltage of 5.3V, while the MAX8934B–MAX8934E provide a SYS output voltage of 4.35V.Other features include overvoltage protection (OVP), open-drain charge status and fault outputs, power-OK monitors, charge timers, and a battery thermistor monitor. Additionally, on-chip thermal limiting reduces the battery charge-rate to prevent charger overheating. The MAX8934_ is available in a 28-pin, 4mm x 4mm, TQFN package.ApplicationsDigital Still Cameras and Digital Video CamerasHandheld Game SystemsPDAs, Palmtop, and Wireless HandheldsPortable Media, MP3 Players, and PNDs
Distributor SKU Stock MOQ 1 10 50 100 1,000 10,000
Analog Devices Inc MAX8934EETI+ 0 $2.86 $2.86
element14 APAC MAX8934EETI+ 24 1 $11.23 $8.69 $8.69 $7.48 $6.96 $6.96
Farnell MAX8934EETI+ 24 1 $6.08 $4.71 $4.71 $3.85 $3.69 $3.69
Mouser Electronics MAX8934EETI+ 84 1 $4.22 $3.82 $3.82 $3.78 $3.42 $3.42

MAX1879EUA+

Analog Devices Inc.
The MAX1879 single-cell lithium-ion (Li+) battery charger utilizes an efficient pulse-charging architecture to minimize power dissipation in portable devices. This architecture combines the efficiency of switch-mode chargers with the simplicity and low cost of linear chargers. This simple device, in conjunction with a current-limited wall cube and a PMOS transistor, allows safe and fast charging of a single Li+ cell. The MAX1879 initiates charging in one of three ways: battery insertion, charger power-up, or toggling the THERM pin. Key safety features include continuous voltage and temperature monitoring, a preset charger time-out, and an 8mA precharge current mode to charge near-dead cells. Automatic detection of input power removal shuts down the device, minimizing current drain from the battery. An overall system accuracy of 0.75% ensures that the cell capacity is fully utilized without cycle life degradation. The MAX1879 is offered in a space-saving 8-pin µMAX® package. An evaluation kit (MAX1879EVKIT) is available to help reduce design time.ApplicationsCell PhonesConsumer AudioCordless PhonesDigital Still CamerasGlobal Positioning Systems (GPS)PagersPalmtops, Handy TerminalsPen Entry Palmtops, PDAs and OrganizersSmart Battery Packs/Chargers
Distributor SKU Stock MOQ 1 10 50 100 1,000 10,000
Analog Devices Inc MAX1879EUA+ 0 $1.78 $1.78
element14 APAC MAX1879EUA+ 120 1 $7.43 $5.67 $4.97 $4.75 $4.52 $4.52
Farnell MAX1879EUA+ 120 1 $3.98 $3.03 $2.69 $2.53 $2.37 $2.37
Mouser Electronics MAX1879EUA+ 254 1 $4.69 $3.08 $2.40 $2.31 $2.31 $2.31

72-4

Keystone Electronics Corp
9V Battery Snaps & Contacts T-9V-SNAP-4"
Distributor SKU Stock MOQ 1 10 50 100 1,000 10,000
DigiKey 36-72-4-ND 988 $1.44 $1.17 $1.06 $1.01 $0.77 $0.64
Future Electronics 72-4 49 1 $0.00 $0.87 $0.87 $0.87 $0.83 $0.83
Mouser Electronics 534-072-4 0 1 $1.35
Verical Marketplace 724 2871 21 $2.19 $0.82 $0.75 $0.73

MAX14578AEEWC+

Analog Devices Inc.
The MAX14578E/MAX14578AE are USB charger detectors compliant with USB Battery Charging Revision 1.1. The USB charger-detection circuitry detects USB standard downstream ports (SDPs), USB charging downstream ports (CDPs), or dedicated charger ports (DCPs), and controls an external lithium-ion (Li+) battery charger.The devices implement USB Battery Charging Revision 1.1-compliant detection logic including data contact detection, D+/D- short detection, and charging downstream port identification. The MAX14578AE features an enable (active-low EN) input and an LDO output. In addition, the internal USB switch is compliant to Hi-Speed USB, full-speed USB, and low-speed USB signals. The devices feature low on-resistance, low on-resistance flatness, and very low capacitance. The devices also feature high-ESD protection up to ±15kV Human Body Model on the CD+ and CD- pins. In addition, the MAX14578E/MAX14578AE feature Apple and Sony charger detection that allows identification of resistor-divider networks on D+/D-. The MAX14578E/MAX14578AE are available in 12-bump, 0.4mm pitch, 1.3mm x 1.68mm WLP and 16-pin TQFN packages and operate over the -40°C to +85°C extended temperature range.ApplicationsCell PhonesDSC and Camcordere-Book ReadersMedia PlayersMID (Mobile Internet Device)
Distributor SKU Stock MOQ 1 10 50 100 1,000 10,000
Mouser Electronics 700-MAX14578AEEWC+ 0 1

MAX17049X+

Analog Devices Inc.
The MAX17048/MAX17049 ICs are tiny, micropower current fuel gauges for lithium-ion (Li+) batteries in handheld and portable equipment. The MAX17048 operates with a single lithium cell and the MAX17049 with two lithium cells in series.The ICs use the sophisticated Li+ battery-modeling algorithm ModelGauge™ to track the battery relative state-of-charge (SOC) continuously over widely varying charge and discharge conditions. The ModelGauge algorithm eliminates current-sense resistor and battery-learn cycles required in traditional fuel gauges. Temperature compensation is implemented using the system microcontroller.The ICs automatically detect when the battery enters a low-current state and switches into a low-power 3µA hibernate mode, while still providing accurate fuel gauging. The ICs automatically exit hibernate mode when the system returns to active state.On battery insertion, the ICs debounce initial voltage measurements to improve the initial SOC estimate, thus allowing them to be located on system side. SOC, voltage, and rate information is accessed using the I2C interface. The ICs are available in a tiny 0.9mm × 1.7mm, 8-bump wafer-level package (WLP), or a 2mm × 2mm, 8-pin TDFN package.ApplicationsBluetooth HeadsetsDigital Still, Video, and Action CamerasHandheld Computers and TerminalsHealth and Fitness MonitorsHome and Building Automation, SensorsMedical DevicesSmartphones, TabletsSmartwatches, WearablesWireless Speakers
Distributor SKU Stock MOQ 1 10 50 100 1,000 10,000
Mouser Electronics 700-MAX17049X+ 0 2500

MAX17841BGUE+

Analog Devices Inc.
The MAX17841B ASCI combines an SPI port with a universal asynchronous receiver transmitter (UART) specially designed to interface with Maxim battery management devices.The UART can be configured to automatically perform Manchester encoding/decoding, message framing, parity, wake-up, and keep-alive signaling as required for Maxim’s battery management UART protocol.The UART has programmable baud rates of 0.5Mbps, 1Mbps, or 2Mbps and supports either single-ended or differential signaling. For host efficiency, the UART contains a 28-byte transmit buffer and a 62-byte receive buffer with host-configurable interrupt events.ApplicationsBattery Management Systems (BMS)Electric and Hybrid Vehicles (EV/HEV)Energy Storage Systems (ESS)
Distributor SKU Stock MOQ 1 10 50 100 1,000 10,000
Analog Devices Inc MAX17841BGUE+ 0 $4.08 $4.08
Farnell MAX17841BGUE+ 0 96 $0.00 $0.00 $0.00 $5.83 $5.83 $5.83
Mouser Electronics MAX17841BGUE+ 63 1 $11.40 $7.98 $7.11 $5.51 $5.48 $5.34

PAC25140NSR

Qorvo
PD02 BASED- 10S-20S BMS W EXPOSED OFFSET
Distributor SKU Stock MOQ 1 10 50 100 1,000 10,000
DigiKey PAC25140NSR 0 100 $9.61 $9.61 $9.61
AVNET Express PAC25140NSR 0 100 $9.42 $9.28 $9.23
Mouser Electronics PAC25140NSR 0 100 $11.12 $11.12 $11.12

MAX17015AETP+

Analog Devices Inc.
Battery Management 1.2MHz High-Perf Charger
Distributor SKU Stock MOQ 1 10 50 100 1,000 10,000
Mouser Electronics 700-MAX17015AETP 0 1