XC6206P332MR

■ Package form and pin definition function

Manufacturer

UMW

Overview

Part: XC6206 series

Type: CMOS Step-Down Voltage Regulator

Key Specs:

Output current: 250mA
Static bias current: 6.0µA Typ.
Max input voltage: 9V
Output voltage range: 1.5V to 5.0V
Output voltage precision: ±1% (gear A), ±2.5% (gear B)
Dropout voltage: 120mV Typ. (at Iout=50mA, Vout(T) 3.4V-5.5V)

Features:

High precision output voltage: gear A: ±1%, gear B: ±2.5%
Output voltage: 1.5V~5.0V (step size 0.1V)
Very low static bias current (Typ.=6.0 μ A)
Low temperature adjustment coefficient
The highest input voltage can reach 8V.
With strong load capacity: when Vin=4.3V and Vout=3.3V, lout=250mA.
It can be used as regulator and reference voltage.
Good input stability: Typ. 0.03%/V

Applications:

Battery power supply system
Cordless telephone equipment
Wireless control system
Portable/palm computer
Portable consumer equipment
Portable instrument
Automobile electronic equipment
Voltage reference source

Package:

SOT89-3
SOT23-3

Features

High precision output voltage: gear A: ±1%, gear B: ±2.5%
Output voltage: 1.5V~5.0V (step size 0.1V)
Very low static bias current (Typ.=6.0 μ A)
Low temperature adjustment coefficient
The highest input voltage can reach 8V.
With strong load capacity: when Vin=4.3V and Vout=3.3V, lout=250mA.
It can be used as regulator and reference voltage.
Good input stability: Typ. 0.03%/V
Package form: SOT89-3, SOT23-3

Electrical Characteristics

trait	symbol	con	ndition	minimum value	typical value	maximum	unit
Output voltage	V _OUT (E)	$I_{\text{OUT}} = 1 \text{mA}$ , $V_{\text{IN}} = V_{\text{OUT}} (T) + 1 V$		V _OUT (T) *0. 98	V _OUT (T)	V _OUT (T)* 1.02	V
Maximum output current	I _OUT (max)	$V_{IN}=V_{OUT}(T)+1V$	ī	100			mA
			1. $5V \leq V_{OUT}(T) \leq 2.5V$		200	280
Drop pressure	Vdrop	$I_{\text{OUT}} = 50 \text{mA}$	$2.6V \leq V_{OUT}(T) \leq 3.3V$		160	240	mV
difference			$3.4V \leqslant V_{OUT}(T) \leqslant 5.5V$		120	200
quiescent current	$I_{ss}$	$V_{IN} = V_{OUT}(T) + 1$	V		7		μA
Load stability	$\Delta V_{\text{out}}$	$V_{IN} = V_{OUT}(T) + 1$	V, 1mA≤I _OUT ≤80mA		20		mV
Input stability	$\Delta V_{\text{OUT}} / (\Delta V_{\text{IN}}$ • $V_{\text{OUT}}$ )	$I_{\text{OUT}}$ =1mA, $V_{\text{OUT}}(T)$ +0.5V $\leq V_{\text{IN}} \leq 5.5$ V			0. 1	0.2	%/V
Output voltage temperature coefficient	ΔV _OUT /(ΔTa •V _OUT )	$V_{IN} = V_{OUT}(T) + 1$ $-40 ^{\circ}\text{C} \leq \text{Ta} \leq$			±100		ppm/°C
input voltage	$V_{\scriptscriptstyle \mathrm{IN}}$			1.8		8.0	V
Ripple suppression ratio	PSRR	$V_{IN}$ = $[V_{OUT}(T) + I_{OUT} = 10$ mA, f=	-1]V +1Vp-pAC =1kHz		40		dB
Short circuit current	Ishort	$V_{\text{IN}} = V_{\text{OUT}}(T) + 1.5V$ , $V_{\text{OUT}} = V_{\text{SS}}$			30		mA
Overcurrent protection current	Ilimt	$V_{IN} = V_{OUT}(T) + 1$	. 5V		380		mA

Note:

1. VOUT (T): the specified output voltage.
1. VOUT (E): effective output voltage (that is, the output voltage when IOUT keeps a certain value and VIN = (VOUT (T)+1.0V))
1. IOUT (max):VIN=VOUT(T)+1V, slowly increase the output current, and the current value when the output voltage is $\leq$ VOUT(E)*95%.
1. Vdrop = Vin1 Vout (e) s: Vin1 = the input voltage when the output voltage drops to 98% of VOUT (E)1. $VOUT (E)s=VOUT (E)*98%$

VOUT (E)1= the output voltage value when vin = vout (t)+1V and iout = a certain value.

■ test circuit

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