MAX889TESA Maxim Integrated Products, MAX889TESA Datasheet - Page 5
MAX889TESA
Manufacturer Part Number
MAX889TESA
Description
Charge Pumps f-Reg 200mA Invert Charge Pump
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX890LESAT.pdf
(8 pages)
Specifications of MAX889TESA
Function
Inverting
Output Voltage
- 2.5 V to - 5.5 V
Output Current
200 mA
Maximum Operating Temperature
+ 85 C
Package / Case
SOIC-8 Narrow
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
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The MAX889 high-current regulated charge-pump DC-
DC inverter provides up to 200mA. It features the high-
est available output current while using small
capacitors (Table 1). The three versions available differ
in their switching frequencies (f
MAX889S/MAX889T with f
respectively. Higher frequencies allow the use of small-
er components (Table 1). Even smaller capacitor values
than those listed in Table 1 are suitable when the
devices are loaded at less than their rated output cur-
rent. Designed specifically for compact applications, a
complete regulating circuit requires only three small
capacitors and two resistors, Figure 1. In addition, the
MAX889 includes soft-start, shutdown control, short-cir-
cuit, and thermal protection.
The oscillator, control circuitry, and four power MOSFET
switches are included on-chip. The charge pump runs
continuously at the operating frequency. During one-half
of the oscillator period, switches S1 and S2 close
(Figure 2), charging the transfer capacitor (C
input voltage (CAP- = GND, CAP+ = IN). During the
other half cycle, switches S3 and S4 close (Figure 3),
transferring the charge on C
(CAP+ = GND, CAP- = OUT).
Voltage regulation is achieved by controlling the flying-
capacitor charging rate. The MAX889 controls the
charge on C
(Figure 2) to supply the charge necessary to maintain
output regulation. When the output voltage droops,
C
FLY
PIN
charges higher due to increased gate drive. Since
1
2
3
4
5
6
7
8
FLY
NAME
SHDN
AGND
CAP+
by modulating the gate drive to S1
CAP-
GND
OUT
_______________________________________________________________________________________
FB
IN
Detailed Description
OSC
Power-Supply Positive Voltage Input
Positive Terminal of Flying Capacitor
Power Ground
Negative Terminal of Flying Capacitor
Inverting Charge-Pump Output
Shutdown Control Input. Drive SHDN low to shut down the MAX889. Connect SHDN to IN for
normal operation.
Feedback Input. Connect FB to a resistor-divider from IN (or other positive reference voltage
source) to OUT for regulated output voltages. Connect to IN for free-run mode.
Analog Ground
FLY
Voltage Regulation
= 500kHz/1MHz/2MHz,
to the output capacitor
OSC
200mA, Inverting Charge Pump
) — MAX889R/
FLY
) to the
High-Frequency, Regulated,
the device switches continuously, the regulation
scheme minimizes output ripple, and the output noise
spectrum contains well-defined frequency components.
Feedback voltage is sensed with a resistor-divider
between an externally supplied positive reference or
the supply voltage and the negative inverted output.
The feedback loop servos FB to GND. The effective
output impedance in regulation is 0.05Ω. The output
remains in regulation until dropout is reached. Dropout
depends on the output voltage setting and load current
(see Output Voltage vs. Load Current in Typical
Operating Characteristics).
The MAX889 may be used in an unregulated voltage
inverter mode that does not require external feedback
resistors, minimizing board space. Connecting FB to IN
places the MAX889 in free-run mode. In this mode, the
charge pump operates to invert directly the input sup-
ply voltage (V
tance is typically 2Ω and can be approximated by the
following equation:
The first term is the effective resistance of an ideal
switched-capacitor circuit (Figures 2 and 3), and R
is the sum of the charge pump’s internal switch resis-
tances (typically 0.8Ω at V
take into consideration the equivalent series resistance
FUNCTION
R
4ESR
O
≅ [1 / (f
OUT
CFLY
(Unregulated Voltage Inverter)
= -(V
OSC
+ ESR
IN
x C
IN
- I
COUT
FLY
OUT
= 5V). The last two terms
Pin Description
) ] + 2R
x R
Free-Run Mode
O
)). Output resis-
SW
+
SW
5
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