MITSUMI LAG665

IC for Headphone Stereos LAG665
MITSUMI
IC for Headphone Stereos
Monolithic IC LAG 665
Outline
This IC was developed for use in headphone stereos, and incorporates dual preamp, power amp, electronic
VR and motor control circuits. It can be used in a simple circuit configuration which requires very few external
components.
Features
1. Broad operating voltage range of 2.0 to 5.0 V (amp system operates to 1.8 V)
2. Few external components required
1. Internal equalizer resistance
2. Direct coupling of preamps, electronic VR, power amp
3. No need for output coupling capacitor
3. Well-balanced electronic VR, A-curve attenuation characteristic obtained with B-curve VR
4. Internal motor control circuit, with noise from motor driving unit suppressed
5. Provided with pin to turn off preamps
Package
SOP-28B (LAG665F)
SDIP-30A (LAG665D)
Absolute Maximum Ratings
Item
Symbol
Ratings
Units
Operating temperature
Topr
-20~+65
°C
Storage temperature
Tstg
-40~+125
°C
Power supply current
VCC
-0.3~+7.5
V
Power consumption
Pd
Operating voltage
Vop
450 (SOP-28B)
750 (SDIP-30A)
2.0~5.0
mW
V
IC for Headphone Stereos LAG665
MITSUMI
Electrical Characteristics
(Except where noted otherwise, Ta=25°C)
Item
Symbol
Measurement conditions
Min. Typ. Max.
Units
Consumption current
ICC
VIN=0V, IM=0mA
18
25
mA
Preamp unit (Ta=25°C)
72
dB
Open-circuit gain
Gvo
Vo=-10dBm, RL=∞
Closed-circuit gain
Gvc
Vo=-10dBm
40
42
44
dB
Maximum output voltage
Vom
THD=10%
0.45
0.6
Vrms
Total harmonic distortion ratio
THD
VOUT=400mVrms
0.05
0.5
%
150
300
µVrms
Output noise voltage
Vno
VIN=0, Rg=2.2k BPF(30~20kHz)
VOUT=-10dBm
18
22
kΩ
Input impedance
ZIN
30
dB
Crosstalk between channels
C.T
Rg=2.2k, VOUT=-10dBm
Output voltage with preamp off Vooff
VIN=100mVrms
-50
dB
Output resistance with preamp off Rooff
10
kΩ
Input resistance on pre off
Rioff
10
kΩ
Measurement conditions Unless noted otherwise, VCC=3.0 V, f=1 kHz.
The preamp off pin is left open
Attenuator unit (Ta=25°C)
Vi max.
0.2
Vrms
Maximum input voltage
Maximum attenuation
Va max.
Vcont=min.
66
dB
Attenuation error
Vaerr
Vcont=max.
0
dB
15
20
kΩ
Input impedance
ZIN
Control pin input resistance
Zicot
100
kΩ
Measurement conditions Unless noted otherwise, VCC=3.0 V, f=1 kHz, (RL=16Ω).
Power amp unit (Ta=25°C)
Voltage gain
Gv
POUT=5mW
26
28
30
dB
Voltage gain difference between channels
Gv
Vcont=max.
0
3
dB
Maximum output power I
Pom1
THD=10%, RL=32Ω
20
28
mW
Maximum output power II
Pom2
THD=10%, RL=16Ω
30
mW
Total harmonic distortion ratio
THD
POUT=5mW
0.2
2.0
%
20
30
dB
Crosstalk between channels
C.T
POUT=5mW
Output noise voltage
Vn
Rg=2.2k, Vcont=min.
0.25
1.0
mVrms
34
40
dB
Ripple rejection
RR
VCC=3V, 100Hz, 100mVp-p
6
9
mVrms
Noise of preamp + power amp
Vnto
VIN=0V, Rg=2.2k, Vcont=max.
Measurement conditions Unless noted otherwise, VCC=3.0 V, f=1 kHz,(RL=16Ω).
Motor control unit (Ta=25°C)
Consumption current
IMC
3.0
5.0
mA
Startup current
IMS
500
mA
Reference voltage
Vref
Between RML-ADJ pins
0.72
0.80
0.87
V
0.05
%/V
Reference voltage fluctuation I Vref1
VCC between 2.1 and 5.0 V
Reference voltage fluctuation II Vref2
IM between 25 and 250 mA
0.01
%/mA
Reference voltage fluctuation III Vref3
Ta between -10 and 50°C
0.01
%/°C
Current coefficient
K
32
38
43
0.5
%/V
Current coefficient fluctuation I
K1
VCC between 2.1 and 5.0 V
Current coefficient fluctuation II
K2
IM between 25 and 250 mA
0.05
%/mA
Current coefficient fluctuation III K3
Ta between -10 and 50°C
0.02
%/°C
Output voltage on forced on
VCEsa
IM=200mA, 14PIN=VCC
0.6
V
Input resistance on forced on
Rion
5.6
kΩ
Leakage current on forced off
IML
200
µA
Input resistance on forced off
Ricon
33
kΩ
Measurement conditions Unless noted otherwise, VCC=3.0, IM=100 mA, circuit constants as specified.
Motor: M25E-7 (Mitsumi model)
Voltage across pins 13 and 19 (motor pins) fluctuates.
*
*
MITSUMI
Block Diagram
Measuring Circuit
IC for Headphone Stereos LAG665
IC for Headphone Stereos LAG665
MITSUMI
Switch Matrix
Switch Number
Item
1
2
3
4
5
6
7
8
c
Closed-circuit gain
b
Maximum output voltage
Total harmonic distortion ratio
Output noise voltage
c
c
b
a
b
b
b
a
b
b
Consumption current
c
Conditions
(Except where noted otherwise,
9 10 11
RL=16Ω, VCC=3V, Fosc=1kHz)
b a a
IM=0mA, VR=max.
Vo=-10dBm
THD=10%
Vo=400mVrms
Measured after inserting BPF (30 Hz to 20 kHz)
b
b
Output voltage with preamp off b
Maximum input voltage
a
a
a
VIN=100mVrms
VIN voltage when VR=mid, THD=10%
Difference in VO output when VR=max and
output voltage when VR=min
POUT=5mW
a
Maximum attenuation
Voltage gain
Voltage gain difference
between channels
Maximum output power I
Maximum output power II
Total harmonic distortion ratio
Crosstalk between channels
Output noise voltage
Ripple rejection
Pre + power noise
Consumption currentt
Startup current
Reference voltage
Reference voltage fluctuation I
Reference voltage fluctuation II
Output voltage on forced on
Leakage current on forced off
Preamp unit
VO=-10dBm, measured with channels swapped
using SW1, SW2
Crosstalk between channels
c
Amp unit
Attenuator unit
Channel output difference at VR=max
b
a
c
c
a
c
b
a
b
a
b
a
a
b
b
a
a
b
a
a
b
a
RL=32Ω, THD=10%
RL=16Ω, THD=10%
POUT=5mW
POUT=5mW measured with channels swapped
output voltage when VR=min
VR=min.
VR=max.
VR=max.
IM=0mA
Power amp unit
IM=100mA (15~16PIN)
IM=100mA, VCC=2.1~5.0V (13~17PIN)
Vcc=3.0V, IM=25~250mA
IM=200mA
Motor uni
b
Note: For switches with only on and off states, a = on and b = off.
Characteristics
Attenuator
Total harmonic distortion ratio (%)
THD-VOUT
VCC=1.8V
VCC=2.0V
VCC=3.0V
10.0
1.0
0.1
0.01
-30
Output voltage attenuation (dB)
Preamp
VATT-VCONT
VCC=3.0V
0
-20
-40
-60
-80
0/6
(min.)
1/6
2/6
3/6
4/6
5/6
6/6
(max.)
Voltage controllability
(B curve mechanical knob)
-20
-10
0
Output voltage (dBm)
IC for Headphone Stereos LAG665
MITSUMI
Power amp
ICC-VCC
15
RL=16Ω
RL=32Ω
10
5
1.0
2.0
3.0
4.0
Total harmonic
distortion ratio (%)
70
60
50
40
30
20
10
0
20
IOC (RL=16Ω)
VCC=1.8V
VCC=2.0V
VCC=3.0V
10
1
0.1
0.1
5.0
Power amp
Ripple rejection rate-VCC
PREAMP OFF
VR=max.
-10
-20
FR=100Hz
VR=100mVrms
RL=16Ω
-30
-40
1.0
2.0
3.0
4.0
5.0
Power supply voltage (V)
crosstalk frequency
-10
-20
VCC=3.0V
-30
100
VCC=3.0V
When VR=max.
80
70
60
50
40
30
20
10
TOTAL GAIN
POWER AMP GAIN
100
1k
10k
Frequency (Hz)
-50
100
1k
10k
Frequency (Hz)
Voltage gain vs. frequency
10
100
-40
-50
0
10
Power amp
Crosstalk (dB)
Ripple rejection rate (dB)
1
Power supply output (mW)
Power supply voltage
Gain (dB)
THD-POUT
100
No-load consumption
current (mA)
Power supply output
(THD=10%) POUT max. (mW)
POUT.
100k
100k