SANYO LC75373E

Ordering number : EN5588
CMOS LSI
LC75373E
Electronic Volume Control
for Car Stereo Systems
Overview
Package Dimensions
The LC75373E is an electronic volume control that can
implement volume, balance, fader, bass/treble + super
bass, loudness, input switching, and input/output level
control functions with a minimal number of external
components.
unit: mm
3148-QFP44MA
[LC75373E]
Functions
• Volume: Provides 81 positions, from 0 dB to –79 dB (in
1-dB steps) and –∞. A balance function can be
implemented by controlling the left and right channels
independently.
• Fader: This function can attenuate either the rear or the
front outputs over 16 positions. (From 0 to –20 dB in
2-dB steps, from –20 to –25 dB in one 5-dB step, from
–25 to –45 dB in 10-dB steps, –60 dB, and –∞.)
• Bass/treble: Forms an NF-type tone control circuit with
the addition of external capacitors. The base and treble
controls each have 15 positions.
• Input gain: The input signal can be amplified from 0 dB
to +18.75 dB in 1.25 dB steps.
• Output gain: One of two output of 0 dB and + 6.5 dB
can be selected for fader output.
• Input switch: The signal can be selected from one of
four inputs for each of the left and right channels.
• Super bass: The position of super bass can be controlled
in 11 steps.
Features
SANYO: QIP44MA
• 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.
• On-chip buffer amplifiers for a minimum of external
components.
• Built-in reference voltage generation circuit
• Serial data input: Supports CCB format communication
with the system controller.
Specifications
Absolute Maximum Ratings at Ta = 25°C, VSS = 0 V
Parameter
Symbol
Conditions
Maximum supply voltage
VDD max
VDD
Maximum input voltage
VIN max
CL, DI, CE
Operating temperature
Storage temperature
Ratings
Unit
11
V
VSS – 0.3 to VDD + 0.3
V
Topr
–40 to +85
°C
Tstg
–50 to +125
°C
SANYO Electric Co.,Ltd. Semiconductor Bussiness Headquarters
TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110-8534 JAPAN
22798HA (OT) No. 5588-1/21
LC75373E
Allowable Operating Ranges at Ta = 25°C, VSS = 0 V
max
Unit
Supply voltage
Parameter
VDD
VDD
6.0
10.5
V
Input high-level voltage
VIH
CL, DI, CE
4.0
VDD
V
Input low-level voltage
VIL
CL, DI, CE
VSS
1.0
V
Input voltage amplitude
VIN
CL, DI, CE, LVRIN, RVRIN, L1 to L4, R1 to R4
LFIN, RFIN, LSIN, RSIN
VSS
VDD
Vp-p
Input pulse width
Symbol
tøW
Conditions
min
typ
CL
1
µs
CL, DI, CE
1
µs
thold
CL, DI, CE
1
fopg
CL
Setup time
tsetup
Hold time
Operating frequency
µs
500
kHz
max
Unit
Electrical Characteristics at Ta = 25°C, VDD = 8 V, VSS = 0 V
Parameter
Symbol
Conditions
min
typ
[Input Block]
Maximum input gain
Step resolution
Gin max
+18.75
dB
Gstep
+1.25
dB
Gout max
+6.5
dB
[Output Block]
Maximum output gain
[Volume Control Block]
Step resolution
Step error
ATstep
ATerr
1
step = 0 to –20 dB
step = –20 to –50 dB
–1
–3
0
0
dB
+1
+3
dB
dB
[Fader Volume Block]
Step resolution
Step error
Output load resistance
ATstep
ATerr
step =0 to –20 dB
step = –20 to –25 dB
2
5
step = –25 to –45 dB
10
step = 0 to –45 dB
step = –45 to –60 dB
RL
–2
–3
0
0
dB
+2
+3
10
dB
dB
kΩ
[Bass/Treble Control Block]
Bass control range
Treble control range
Gbass
Max. boost/cut
±9
±10.5
±12
dB
Gtre
Max. boost/cut
±8
±10.5
±13
dB
[Super Bass Block 1 (Type GEQ)]
Control range
Crange
Step resolution
ATstep
Max. boost
+17
dB
+1.7
dB
+20
dB
+2.0
dB
[Super Bass Block 2 (Type T)]
Control range
Crange
Step resolution
ATstep
Max. boost
[Overall Characteristics]
Total harmonic distortion
Crosstalk
Output at maximum attenuation
Output noise voltage
THD
CT
VO min
VIN = 1 Vrms, f = 1 kHz, all settings flat overall
0.003
VIN = 1 Vrms, f = 1 kHz, all settings flat overall,
Rg = 1 kΩ
VIN = 1 Vrms, f = 1 kHz, main volume at –∞
V N1
All settings flat overall (IHF-A), Rg = 1 kΩ
VN2
All settings flat overall (DIN-AUDIO), Rg = 1 kΩ
Input high-level current
IIH
CL, DI, CE: VIN = 8 V
Input low-level current
IIL
CL, DI, CE: VIN = 0 V
0.01
80.5
dB
–80
dB
8
µV
10
µV
10
–10
%
µA
µA
Note: Values in parenthesis are targets and will be fixed after evaluation.
No. 5588-2/21
LC75373E
Equivalent Circuit Block Diagram
No. 5588-3/21
LC75373E
Sample Application Circuit
1. When super bass circuit 1 (Type GEQ) is used
Unit (capacitance: F)
No. 5588-4/21
LC75373E
2. When super bass circuit 2 (Type T) is used
Unit (capacitance: F)
Unit (resistance: Ω)
No. 5588-5/21
LC75373E
Pin Assignment
Top view
No. 5588-6/21
LC75373E
Pin Functions
Pin No.
Symbol
19
Vref
20
LROUT
21
LFOUT
14
RROUT
13
RFOUT
Function
• 1/2 VDD voltage generation block. A capacitor must be connected between
Vref and VSS to suppress power supply ripple.
• Fader outputs. The front and rear systems can be attenuated independently.
22
LFIN
• Fader inputs
12
RFIN
• Must be driven from low-impedance circuits.
28
LTOUT
6
RTOUT
31
LT1
30
LT2
29
LT3
3
RT1
4
RT2
5
RT3
26
LS1
25
LS2
24
LS3
8
RS1
9
RS2
10
RS3
Note
• Tone control outputs
• Connections for the bass and treble compensation capacitors for the tone
control circuit
Connect high-band compensation capacitors between T1 and T2.
Connect low-band compensation capacitors between T2 and T3.
• Super bass compensation capacitors
33
LVRIN
• 4-dB volume control inputs
1
RVRIN
• These inputs must be driven from low-impedance circuits.
Continued on next page.
No. 5588-7/21
LC75373E
Continued from preceding page.
Pin No.
Symbol
34
LSELO
44
RSELO
38
L1
37
L2
36
L3
Function
• Outputs from the input selector
35
L4
40
R1
41
R2
42
R3
43
R4
39
VDD
Power supply connection
15
VSS
Ground
18
CE
Chip enable. Data is latched internally at the point this pin goes from high to
low. The analog switches operate at that point. Data transfer is enabled when
this pin is high.
16
CL
17
DI
32
LCOM
2
RCOM
Note
• Signal inputs
Inputs for the serial data and clock used for LSI control.
1-dB block common outputs
27
LSIN
• Super bass inputs
7
RSIN
• These inputs must be driven by low-impedance circuits.
11
RSOUT
23
LSOUT
• Super bass outputs
No. 5588-8/21
LC75373E
Input Block Equivalent Circuit
No. 5588-9/21
LC75373E
Main Volume Control Equivalent Circuit
No. 5588-10/21
LC75373E
Tone Control Block Equivalent Circuit
No. 5588-11/21
LC75373E
Super Bass Block Equivalent Circuit
Note: Concerning super bass switching control
• If the Q for super bass 1 (Type GEQ) is to be set to a relatively large value
SW1.............on (Note that this switch should be set to the off position only if STEP 0 data was sent.)
SW2.............on
SW3.............off
SW4.............off
• If the Q for super bass 2 (Type T) can be set to a relatively small value without problem
SW1.............off
SW2.............off
SW3.............on
SW4.............on
No. 5588-12/21
LC75373E
Super Bass Block Circuit 1 External Capacitor Calculation Example
The LC75373E external capacitors function as the structural elements for simulated inductances. This section presents
the equivalent circuits and the formulas used to calculate the desired center frequencies.
Simulated Inductance Equivalent Circuit
Sample Calculations
Specifications:
Center frequency: F0 = 100 Hz
Q at maximum boost: Qmax = 1.05
① Determine the sharpness Q0 of the simulated inductance itself.
Q0 =
(RT2 + Rfeed)
RT2
* Qmax ≈ 2.6481
➁Determine C1.
C1 =
1
2* π * F0 * RT2 * Q0
≈ 0.60 (µF)
➂ Determine C2
C2 =
Q0
2* π * F0 * RT3
≈ 0.014 (µF)
*: See the super bass block equivalent circuit diagram for the values of the internal resistors.
No. 5588-13/21
LC75373E
Fader Volume Control Block Equivalent Circuit
No. 5588-14/21
LC75373E
Control System Timing and Data Format
The LC75373E is controlled by applying serial data in the stipulated format to the CE, CL, and DI pins. The data
consists of 52 bits, of which 8 bits are the chip address and 44 bits are the data.
Note: 1. The bits D36 to D43 are LSI test bits and must be set to 0.
2. Concerning super bass switching
If the Q for super bass 1 is to be set to a relatively large value
If the Q for super bass 2 can be set to a relatively small value without problem
No. 5588-15/21
LC75373E
No. 5588-16/21
LC75373E
No. 5588-17/21
LC75373E
No. 5588-18/21
LC75373E
Super bass 1 Type GEQ, control characteristics
Super bass 2 Type T, control characteristics
No. 5588-19/21
Total harmonic distortion, THD—%
LC75373E
THD-Output
THD—Outputlevel
level characteristics
characteristics
THD-Output
characteristics
THD—Input level
level characteristics
1
0.1
0.01
-40
-30
-20
-10
0
10
20
30
VDD=8V, VSS=0V
80-kHz low-pass weighting
overall
0.1
f=2
0kH
z
f=1kHz
Total
Totalharmonic
harmonicdistortion,
distortion, THD—%
THD-%
VDD=8V, VSS=0V
80-kHz low-pass weighting
overall
f=2
0kH
z
f=1kHz
Total
Totalharmonic
harmonicdistortion,
distortion,THD—%
THD-%
1
0.01
-40
-30
Output
—dBV
Outut level,
leve, VVOO–dBV
Gain
block
VR
10dB
block
VR
1dB
block
TONE
block
Super
bass
block
-20
-10
0
10
20
30
Input
—dBV
Oututlevel,
leve, V
VIN–dBV
Fader
block
THD
meter
Gain
block
VR
10dB
block
VR
1dB
block
TONE
block
Super
bass
block
Fader
block
THD
meter
No. 5588-20/21
LC75373E
Usage Notes
1. The states of the internal analog switches are undefined when power is first applied. Use an external muting circuit or
other technique to mute the outputs until correct control data has been set up in the LC75373E.
2. Either cover the lines connected to the CL, DI, and CE pins with the ground pattern or use shielded cable for those
lines to prevent the high-frequency digital signals on those 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 February, 1998. Specifications and information herein are subject to
change without notice.
PS No. 5588-21/21