SANYO LC75366M

Ordering number : EN4929A
CMOS LSI
LC75366, 75366M
Two-Channel Electronic Volume Control
Overview
Package Dimensions
The LC75366 (DIP20) and the LC75366M (MFP20) are
electronic volume controls that can be controlled by serial
input data and provide volume, balance and loudness
functions.
unit: mm
3021B-DIP20
[LC75366]
Features
• Silicon gate CMOS process for low switching noise
Functions
• Volume: 0 dB to –68 dB (in 2 dB steps) and –∞;
36 positions.
A balance function can be implemented by controlling
the left and right channel volume settings independently.
• Loudness: Taps are provided at the –20 dB positions in
the 10 dB step resistor ladder used by the volume
control function. A loudness function can be
implemented by attaching external RC circuits at these
tap points.
• An address selection pin (the S pin) allows two
LC75366 chips to be used on the same bus.
• Serial data input: Supports CCB* format communication
with the system controller.
SANYO: DIP20
unit: mm
3036B-MFP20
[LC75366M]
• CCB is a trademark of SANYO ELECTRIC CO., LTD.
• CCB is SANYO’s original bus format and all the bus
addresses are controlled by SANYO.
Specifications
SANYO: MFP20
Absolute Maximum Ratings at Ta = 25°C, VSS = 0 V
Parameter
Maximum supply voltage
Maximum input voltage
Allowable power dissipation
Symbol
Conditions
VDD max
VDD
VIN max1
VIN max2
Pd max
Ratings
Unit
12
V
CL, DI, CE, S
VSS – 0.3 to VDD + 0.3
V
L10dBIN, L2dBIN, R10dBIN, R2dBIN
VSS – 0.3 to VDD + 0.3
Ta ≤ 85°C
140
V
mW
Operating temperature
Topr
–40 to +85
°C
Storage temperature
Tstg
–50 to +125
°C
SANYO Electric Co.,Ltd. Semiconductor Bussiness Headquarters
TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110 JAPAN
63096HA (OT)/62095HA (OT) No. 4929-1/11
LC75366, 75366M
Allowable Operating Ranges at Ta = 25°C, VSS = 0 V
Parameter
Symbol
Supply voltage
VDD
Input high level voltage
Input low level voltage
Input voltage amplitude
Input pulse width
Conditions
Ratings
VDD
Unit
4.0 to 11.0
V
0.3 VDD + 1 to VDD
V
VIH (1)
CL, DI, CE
VIH (2)
S
0.8 VDD to VDD
V
VIL (1)
CL, DI, CE
VSS to 0.2 VDD
V
VIL (2)
S
VSS to 0.2 VDD
VIN
L10dBIN, L2dBIN, R10dBIN, R2dBIN
tøW
V
VSS to VDD
Vp-p
CL
1 or longer
µs
Setup time
tset up
CL, DI, CE
1 or longer
µs
Hold time
thold
CL, DI, CE
1 or longer
µs
Operating frequency
fop
CL
Up to 500
kHz
Electrical Characteristics at Ta = 25°C, VSS = 0 V
Parameter
Symbol
Output at maximum attenuation
Total resistance
typ
max
Unit
0.006
%
THD (2)
VIN = 1 Vrms, f = 20 kHz, all settings flat overall,
VDD = 9 V
0.015
%
CT
VIN = 1 Vrms, f = 20 kHz, all settings flat overall,
Rg = 1 kΩ
85
dB
–80
dB
VO min
VIN = 1 Vrms, f = 20 kHz, volume setting: –∞,
with a 470 µF capacitor between L/R Vref and VSS
RVOL (1)
10 dB steps
RVOL (2)
2 dB steps
Output off leakage current
Ioff
L10dBIN, R10dBIN, LCT1, L2dBIN, R2dBIN, RCT1,
L10dBOUT, R10dBOUT, LCT2, L2dBOUT, R2dBOUT,
RCT2, LVref, RVref
Input high level current
IIH
VI = VDD (CL, CE and DI pins)
Input low level current
IIL
VI = VSS (CL, CE and DI pins)
Output noise voltage
VN
All settings flat overall (IHF-A), VDD = 9 V, Rg = 1 kΩ
Current drain
IDD
VDD – VSS = 11 V
CT1
Analog switch on resistance
(Design target value)
min
THD (1)
Total harmonic distortion
Crosstalk
Conditions
VIN = 1 Vrms, f = 1 kHz, all settings flat overall,
VDD = 9 V
RON
For use between CT2 and Vref
28.2
47
65.8
kΩ
12
20
28
kΩ
+10
µA
–10
10
–10
µA
µA
2
10
µV
1
mA
180
300
420
Ω
90
150
210
Ω
0 dB, –∞
0.6
1.0
1.4
kΩ
Other than the above
6.0
10.0
14.0
kΩ
Pin Assignment
No. 4929-2/11
LC75366, 75366M
Equivalent Circuit Block Diagram
Test Circuits
1. Total harmonic distortion
No. 4929-3/11
LC75366, 75366M
2. Output noise voltage
3. Crosstalk
No. 4929-4/11
LC75366, 75366M
Volume Block Equivalent Circuit
No. 4929-5/11
LC75366, 75366M
Pin Functions
Pin No.
Symbol
1
L10dBIN
20
R10dBIN
2
LCT1
3
LCT2
19
RCT1
18
RCT2
4
L10dBOUT
Function
Note
Input pins for the 10 dB step attenuator. Must be driven from a low impedance.
Loudness connections. Connect a high band compensation capacitor between
CT1 and 10dBIN and connect a low band compensation capacitor between CT2
and Vref.
Output pins for the 10 dB step attenuator. These outputs must be received by a
load of about 1 MΩ.
17
R10dBOUT
5
L2dBIN
16
R2dBIN
6
L2dBOUT
Input pins for the 2 dB step attenuator. Must be driven from a low impedance.
Output pins for the 2 dB step attenuator. These outputs must be received by a
load of about 1 MΩ.
15
R2dBOUT
7
LVref
14
RVref
12
S
9
CL
10
DI
11
CE
8
VDD
13
VSS
Volume circuit common pins. The impedance of the pattern connected to these
pins should be kept as low as possible.
Since the capacitors between Vref and VSS form the residual resistance
components when the volume is cut, adequate care must be taken in
determining the value of these capacitors.
Pin that selects the address code in the data format. Data will be accepted for
an address code of 88 when this pin is tied to VDD, and for an address code of
89 when tied to VSS.
Serial data and clock inputs for control
Chip enable. The internally latched data is written and the analog switches
operate when this pin goes from high to low. Data transfer is enabled when this
pin is at the high level.
These pins must be connected to the power supply.
No. 4929-6/11
LC75366, 75366M
Control System Timing and Data Format
Apply the stipulated serial data to the CE, CL and DI pins to control the LC75366 and LC75366M. The data consists of
20 bits, of which 8 bits are the address and 12 bits are control data.
No. 4929-7/11
LC75366, 75366M
Sample Application Circuit
No. 4929-8/11
LC75366, 75366M
No. 4929-9/11
LC75366, 75366M
Loudness Function External Circuit Constant Calculation Example
First, refer to the LC75366 and LC75366M 10 dB step internal equivalent circuit shown on page 5. Figure 1 below
shows this circuit simplified with the external components used for the loudness function connected for this calculation.
The sample calculation below uses this diagram to acquire a 5 dB boost at f = 100 Hz.
(f = 100 Hz, 5 dB boost)
Let R and C in Figure 1 be:
R1 = R2 = 10 kΩ
R3 = 1 kΩ
C1 = Z1, C2 = Z2
Then:
R2 (R3 + Z2)
R2 + R3 + Z2
VOUT =
= –20 dB
R1 · Z1
R2 (R3 + Z2)
(at = 1 kHz)
+
R1 + Z1 R2 + R3 + Z2
R2 (R3 + 10 · Z2)
R2 + R3 + 10 · Z2
VOUT =
= –15 dB
R1 · 10 · Z1
R2 (R3 + 10 · Z2)
(at = 100 Hz)
+
R1 + 10 · Z1
R2 + R3 + 10 · Z2
Solving the above equations gives:
Z1 ≠ 178.3 kΩ and Z2 = 176 Ω
No. 4929-10/11
LC75366, 75366M
Therefore, under such conditions where f = 1 kHz, specifications may be satisfied if C (capacitor) having these
impedances is supplied externally.
The result is that C1 = 893 pF and C2 = 0.9 µF.
Figure 1
Usage Notes
1. The states of the internal analog switches will be indeterminate when power is first applied. Muting should be
applied externally until control data has been transferred and stored.
2. The signal lines for the CL, DI and CE pins should either be covered by the pattern ground or be formed from
shielded cable to prevent the high-frequency digital signals transmitted over these lines from entering the analog
system.
■ No products described or contained herein are intended for use in surgical implants, life-support systems, aerospace
equipment, nuclear power control systems, vehicles, disaster/crime-prevention equipment and the like, the failure of
which may directly or indirectly cause injury, death or property loss.
■ Anyone purchasing any products described or contained herein for an above-mentioned use shall:
➀ Accept full responsibility and indemnify and defend SANYO ELECTRIC CO., LTD., its affiliates, subsidiaries and
distributors and all their officers and employees, jointly and severally, against any and all claims and litigation and all
damages, cost and expenses associated with such use:
➁ Not impose any responsibility for any fault or negligence which may be cited in any such claim or litigation on
SANYO ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors or any of their officers and employees
jointly or severally.
■ Information (including circuit diagrams and circuit parameters) herein is for example only; it is not guaranteed for
volume production. SANYO believes information herein is accurate and reliable, but no guarantees are made or implied
regarding its use or any infringements of intellectual property rights or other rights of third parties.
This catalog provides information as of November, 1997. Specifications and information herein are subject to
change without notice.
No. 4929-11/11