MPS EV2637-R-00A Quick Start Manual Download Page 5

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EV2637-R-00A –2.5A SINGLE-CELL SWITCH MODE BATTERY CHARGER

EV2637-R-00A Rev. 1.1

www.MonolithicPower.com

11/13/2017

MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.

Preliminary Specifications Subject to Change

QUICK START GUIDE

This board is designed for the MP2637, a stand-alone switch-mode battery charge management and
system power path management device with integrated reverse directional boost from BATT to SYS.
The board’ layout accommodates most commonly-used capacitors. The default function of this board is
preset at charge mode, and the charge full voltage is preset to 4.2V for a 1-cell Li-Ion battery.

Charge Mode Setting

1. Input-Over-Voltage-Limit

The MP2637 has a PWIN pin to monitor the input voltage. Once the voltage input voltage at PWIN
pin exceeds 1.15V, the input to system path is cut off to protect the device from being damaged.
The maximum input is 6V, and the external resistor divider must meet the following equation:

PWIN

1.15

RH RL





(1)

Assume that RL=5.1k

Ω

, then RH is 21.5k

Ω

2. REG

Voltage

When the input power source is not sufficient to support both the charge current and system load
current, the charge current is reduced to allow priority of system power and maintain the input
voltage avoid dropping further. The REG pin is the input-voltage regulation feedback. The input
voltage can be regulated by a resistor divider from VIN pin to REG pin to AGND

)

(

REG







(2)

If V

REG

=4.75V, given R4=5.1k

Ω

, then R3=15k

Ω

3. Input Current Limit

An input current limit can be set slightly below the input source’s maximum current rating. When the
input current hits this limit, the charge current will decrease to keep the input current constant at the
limit value to initially power the system. R

ILIM

—the resistor connected to the ILIM pin—programs this

limit. To set the input current limit at 2.7A, use an R

ILIM

of 16.5k

Ω



ILIM

45(kV)

(A)

Ω

)

(3)

4. Charge-Full

Voltage

To set the charge-full voltage, either leave the VB pin floating, or connect it to high logic for 4.2V
and to connect to GND for 4.35V.

5. Charge

Current

The charge current can be programmed via both RS1 and R

ISET

. With given RS1=20m

Ω

, determine

the charge current using the following formula:

CHG

ISET

2400

(A)

(k ) RS1(mA)



 

(4)

For example, for a charge current of 2.5A, use a 47.5k

Ω

ISET

Summary of Contents for EV2637-R-00A

Page 1: ...t mode To guarantee safe operation the EV2637 has input over voltage protection battery over voltage protection thermal shutdown battery temperature monitoring and a programmable timer to prevent prolonged charging of a dead battery ELECTRICAL SPECIFICATION Parameter Symbol Value Units Charge Mode Input Voltage Range VIN 4 5 6 V Charge Full Voltage VBATT Full 4 2 4 35 V Charge Current ICHG 2 5 A I...

Page 2: ...3 2K R11 47 5K 1 RISET 2 1 100nF CTMR 16 5K 1 RILIM JP1 JP2 VCC 10K R6 10K R7 5 1K 1 R4 VIN PGND 22uF 2 1 CIN 1uF 2 1 C1 VCC AGND 1uF C2 100nF 2 1 C4 22uF 2 1 CSYS 31 6K 1 R1 10K 1 R2 53 6K ROLM 2 2uH 1 2 L1 20m RS1 SYS 2 1 22uF C3 2 1 22uF CBATT BATT 10K 1 RT1 10K 1 RT2 NTC 10K 1 2 R5 1 1 2 2 3 3 JP3 PGND VIN SW VCC FB SYS LED VBATT NC 2 1 C5 NC 2 1 C6 22uF 2 1 C7 1 1 2 2 3 3 JP4 15K R3 23 7K RH ...

Page 3: ... C10 C1 1 NC Ceramic Capacitor 16V X7R 0603 1 CIN 22μF Ceramic Capacitor 25V X5R 1206 murata GRM31CR61E226KE15 1 L1 2 2μH Inductor 2 2uH 9m 7 2A SMD muRata LQH88PN2R2N38 2 LED2 LED3 BL HUF35A TRB LED Red 0805 BRIGHT LED BL HUF35A TRB 1 LED1 BL HGB35A TRB LED Green 0805 BRIGHT LED BL HGB35A TRB 1 R1 31 6kΩ Film Resistor 1 0603 Yageo RC0603FR 0731K6L 3 R2 RT1 RT2 10kΩ Film Resistor 1 0603 Yageo RC06...

Page 4: ...icPower com 4 11 13 2017 MPS Proprietary Information Patent Protected Unauthorized Photocopy and Duplication Prohibited Preliminary Specifications Subject to Change 2017 MPS All Rights Reserved PRINTED CIRCUIT BOARD LAYOUT Figure 1 Top Silkscreen Layer Figure 2 Top Layer Figure 3 Bottom Layer ...

Page 5: ...21 5kΩ 2 REG Voltage When the input power source is not sufficient to support both the charge current and system load current the charge current is reduced to allow priority of system power and maintain the input voltage avoid dropping further The REG pin is the input voltage regulation feedback The input voltage can be regulated by a resistor divider from VIN pin to REG pin to AGND V 4 R 4 R R3 V...

Page 6: ...the charge current is 2 5A a CTMR of 0 1μF provides a tTOTAL_TMR of 2 4 hours Boost Mode 1 System Output Voltage The MODE pin can enable or disable the EV2637 when in boost mode The resistor divider R1 and R2 can adjust the output voltage as per the following equation 2 2 1 2 1 _ R R R V V V REG SYS 6 Select R1 and R2 as 31 6kΩ and 10kΩ respectively for a system voltage of 5V 2 System Output Curre...

Page 7: ...st and ensure the charger s setting doesn t exceed the battery s absolute maximum specifications 3 An oscilloscope A single voltage probe and a single current probe 4 Multi meter Charge Function 1 Connect the jumper EN to H and the MODE to L to shunts respectively 2 Attach the positive and negative ends of the battery to the BATT and GND terminals respectively If it s a battery simulator please pr...

Page 8: ...ized Photocopy and Duplication Prohibited Preliminary Specifications Subject to Change 2017 MPS All Rights Reserved Boost Function 1 Connect the jumper MODE to H and the EN to L with shunts respectively 2 Attach the load to the SYS and GND terminals respectively 3 Attach the positive and negative ends of the battery to the BATT and GND terminals respectively If it s a battery simulator please pres...

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