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产品型号BD37513FS-E2的概述

芯片BD37513FS-E2的概述 BD37513FS-E2是一款由日本片冈电机株式会社(BP)设计并制造的高性能电源管理集成电路(PMIC)。这一芯片专为移动通信和便携式设备中的各类电源需求而设计,包括手机、平板电脑和其他类型的电子产品。其核心功能集中在电源转换、充电管理、电压监控等方面,能够有效提升设备的能效,并延长电池寿命。 BD37513FS-E2的设计思路基于提供高效的电源解决方案,从而满足用户对便携设备持续运行的需求。该芯片不仅具有良好的热管理能力,而且其电源电压输出范围非常灵活,使其适用于广泛的应用场合。它的高度集成化设计使其在占用空间方面极具优势,适合现代电子设备日益紧凑的设计趋势。 芯片BD37513FS-E2的详细参数 BD37513FS-E2芯片的主要电气参数包括: - 输入电压范围:3V至8V - 输出电压范围:可调,支持多种输出电压设置 - 最大输出电流:30...

产品型号BD37513FS-E2的Datasheet PDF文件预览

Sound Processor with Built-in 2-band Equalizer  
BD37513FS  
General Description  
Key Specifications  
BD37513FS is a sound processor with built-in 2-band  
equalizer for car audio. The functions are 4ch stereo  
input selector, input-gain control, main volume,  
loudness, and 4ch fader volume. Moreover, its  
“Advanced switch circuit”, which is an original ROHM  
technology, can reduce various switching noise (ex.  
No-signal, low frequency like 20Hz & large signal  
inputs). “Advanced switch” makes control of  
microcomputer easier, supporting the construction of a  
high quality car audio system.  
Power Supply Voltage Range:  
Circuit Current (No Signal):  
TotalHarmonic Distortion1:  
Maximum Input Voltage:  
Cross-talk Between Selectors:  
Volume Control Range:  
Output Noise Voltage 1:  
Residual Output Noise Voltage:  
Operating Temperature Range:  
7.0V to 9.5V  
38mA(Typ)  
0.001%(Typ)  
2.3Vrms(Typ)  
-100dB(Typ)  
+15dB to -79dB  
3.8µVrms(Typ)  
1.8µVrms(Typ)  
-40°C to +85°C  
Package  
W(Typ) x D(Typ) x H(Max)  
Features  
Reduce switching noise of input gain control, mute,  
main volume, fader volume, bass, treble, loudness  
by using advanced switch circuit.  
Built-in  
1
differential input selector and  
3
single-ended input selectors  
Built-in ground isolation amplifier inputs, ideal for  
external stereo input.  
Built-in input gain controller reduces switching  
noise for volume of a portable audio input.  
Decrease the number of external components due  
to built-in 2-band equalizer filter and loudness filter.  
Also, it is possible to control Gv using I2C BUS  
control.  
SSOP-A20  
8.70mm x 7.80mm x 2.01mm  
It is possible to adjust the gain of the bass and  
treble up to ±20dB with 1 dB step gain adjustment.  
Energy-saving design resulting in low current  
consumption, by utilizing the Bi-CMOS process. It  
has the advantage in quality over scaling down the  
power heat control of the internal regulators.  
Input terminals and output terminals are organized  
and separately laid out to keep the signal flow in  
one direction which results in simpler and smaller  
PCB layout.  
Applications  
It is optimal for use in car audio systems. It can also be  
used for audio equipment of mini Compo, micro Compo,  
TV, etc.  
It is possible to control the I2C BUS by 3.3V/5V.  
Product structureSilicon monolithic integrated circuit This product has no designed protection against radioactive rays  
www.rohm.com  
TSZ02201-0C2C0E100430-1-2  
16.Dec.2015 Rev.001  
© 2015 ROHM Co., Ltd. All rights reserved.  
1/26  
TSZ2211114001  
BD37513FS  
Typical Application Circuit  
BD37513FS  
Unit  
R : [Ω]  
C : [F]  
Pin Configuration  
20 GND  
19 SDA  
18 SCL  
FIL 1  
A1 2  
A2 3  
17 VCC  
16 OUTF1  
B1 4  
B2 5  
C1 6  
C2 7  
15 OUTF2  
14 OUTR1  
13 OUTR2  
12 TEST1  
11 MUTE  
DP1 8  
DN 9  
DP2 10  
Pin Descriptions  
Pin  
Pin No.  
Description  
Pin No.  
Pin Name  
Description  
Name  
1
2
FIL  
A1  
VCC/2 terminal  
11  
12  
13  
14  
15  
16  
17  
MUTE  
TEST1  
OUTR2  
OUTR1  
OUTF2  
OUTF1  
VCC  
External compulsory mute terminal  
Test Pin  
A input terminal of 1ch  
A input terminal of 2ch  
B input terminal of 1ch  
B input terminal of 2ch  
C input terminal of 1ch  
C input terminal of 2ch  
3
A2  
Rear output terminal of 2ch  
Rear output terminal of 1ch  
Front output terminal of 2ch  
Front output terminal of 1ch  
Power supply terminal  
4
B1  
5
B2  
6
C1  
7
C2  
8
DP1  
DN  
DP2  
D positive input terminal of 1ch  
D negative input terminal  
18  
19  
20  
SCL  
I2C Communication clock terminal  
I2C Communication data terminal  
GND terminal  
9
SDA  
10  
D positive input terminal of 2ch  
GND  
www.rohm.com  
TSZ02201-0C2C0E100430-1-2  
16.Dec.2015 Rev.001  
© 2015 ROHM Co., Ltd. All rights reserved.  
2/26  
TSZ2211115001  
BD37513FS  
Block Diagram  
20  
19  
18  
17  
16  
15  
14  
13  
12  
11  
VCC  
GND  
I2C BUS LOGIC  
Fader  
Gain: 0dB to -79dB/1dB step  
no pop noise  
Loudness  
20dB to 0dB/1dB step  
no pop noise  
・f0=800  
Hicut1/2/3/4  
2 Band EQ (Tone control)  
Gain:+20dB to -20dB/1dB  
no pop noise  
Bassf0=100Hz,  
Q=1.0  
Loudness  
Treblef0=10kHz  
Q=1.25  
Volume  
2 Band EQ  
(Tone control)  
Gain+15dB to -79dB/1dB step  
no pop noise  
Input Gain  
Volume/Mute  
Input Gain  
Gain:+20dB to 0dB/1dB step  
no pop noise  
Input selector (3 single-end and 1 stereo ISO)  
GND  
GND  
ISO amp ISO amp  
VCC/2  
100k  
100k  
100k  
100k  
250k  
250k  
250k  
250k 250k  
1
2
3
4
5
6
7
8
9
10  
www.rohm.com  
TSZ02201-0C2C0E100430-1-2  
16.Dec.2015 Rev.001  
© 2015 ROHM Co., Ltd. All rights reserved.  
3/26  
TSZ2211115001  
BD37513FS  
Absolute Maximum Ratings (Ta=25°C)  
Parameter  
Power Supply Voltage  
Input Voltage  
Symbol  
VCC  
Rating  
10.0  
Unit  
V
VIN  
VCC+0.3 to GND-0.3  
0.94 (Note)  
V
Power Dissipation  
Storage Temperature  
Pd  
W
°C  
Tstg  
-55 to +150  
(Note) This value derates by 7.5mW/°C for Ta=25°C or more when ROHM standard board is used.  
Thermal resistance θja = 133.3(°C/W)  
ROHM Standard board  
Size : 70 x 70 x 1.6(mm3)  
Material : A FR4 grass epoxy board(3% or less of copper foil area)  
Caution: Operating the IC over the absolute maximum ratings may damage the IC. The damage can either be a short circuit between pins or an open circuit  
between pins and the internal circuitry. Therefore, it is important to consider circuit protection measures, such as adding a fuse, in case the IC is operated over  
the absolute maximum ratings.  
Recommended Operating Conditions  
Parameter  
Power Supply Voltage  
Temperature  
Symbol  
Min  
7.0  
-40  
Typ  
Max  
9.5  
Unit  
V
VCC  
-
-
Topr  
+85  
V
Electrical Characteristics  
(Unless specified otherwise, Ta=25°C, VCC=8.5V, f=1kHz, VIN=1Vrms, Rg=600Ω, RL=10kΩ, A input, Input gain 0dB,  
Mute OFF, Volume 0dB, Tone control 0dB, Loudness 0dB, Fader 0dB)  
Limit  
Parameter  
Circuit Current  
Symbol  
IQ  
Unit  
mA  
Conditions  
Min  
Typ  
Max  
48  
38  
No signal  
Voltage Gain  
Channel Balance  
GV  
CB  
-1.5  
-1.5  
0
0
+1.5  
+1.5  
dB  
dB  
GV=20log(VOUT/VIN)  
CB = GV1-GV2  
Total Harmonic Distortion 1  
(FRONT,REAR)  
VOUT=1Vrms  
BW=400HZ-30KHz  
THD+N1  
VNO1  
0.001  
3.8  
0.05  
15  
Output Noise Voltage 1  
Rg = 0Ω  
BW = IHF-A  
μVrms  
(FRONT,REAR)  
Fader = -dB  
Rg = 0Ω  
BW = IHF-A  
VNOR  
1.8  
10  
μVrms  
Residual Output Noise Voltage*  
Rg = 0Ω  
CTC  
RR  
-100  
-70  
-90  
-40  
dB  
dB  
CTC=20log(VOUT/VIN)  
BW = IHF-A  
f=1kHz  
VRR=100mVrms  
RR=20log(VCC IN/VOUT  
Cross-talk Between Channels*  
Ripple Rejection  
)
Input Impedance(A,B)  
Input Impedance (C,D)  
RIN_S  
RIN_D  
70  
175  
100  
250  
130  
325  
kΩ  
kΩ  
VIM at THD+N(VOUT)=1%  
BW=400Hz-30KHz  
Maximum Input Voltage  
VIM  
2.1  
2.3  
Vrms  
Rg = 0Ω  
CTS  
-100  
-90  
dB  
CTS=20log(VOUT/VIN)  
BW = IHF-A  
Cross-talk Between Selectors*  
DP1 and DN input  
DP2 and DN input  
CMRR=20log(VIN/VOUT  
BW = IHF-A  
Input gain 0dB  
Common Mode Rejection Ratio*  
CMRR  
GIN_MIN  
50  
-2  
65  
0
dB  
dB  
)
Minimum Input Gain  
+2  
VIN=100mVrms  
GIN=20log(VOUT/VIN)  
Input gain 20dB  
VIN=100mVrms  
GIN=20log(VOUT/VIN)  
GAIN=+1dB to +20dB  
Maximum Input Gain  
Gain Set Error  
GIN_MAX  
GIN_ERR  
+18  
-2  
+20  
0
+22  
+2  
dB  
dB  
www.rohm.com  
TSZ02201-0C2C0E100430-1-2  
16.Dec.2015 Rev.001  
© 2015 ROHM Co., Ltd. All rights reserved.  
4/26  
TSZ2211115001  
BD37513FS  
Electrical Characteristics - continued  
(Unless specified otherwise, Ta=25°C, VCC=8.5V, f=1kHz, VIN=1Vrms, Rg=600Ω, RL=10kΩ, A input, Input gain 0dB,  
Mute OFF, Volume 0dB, Tone control 0dB, Loudness 0dB, Fader 0dB)  
Limit  
Parameter  
Symbol  
GMUTE  
Unit  
dB  
Conditions  
Min  
Typ  
Max  
-85  
Mute ON  
Mute Attenuation*  
-105  
GMUTE=20log(VOUT/VIN)  
BW = IHF-A  
Volume = 15dB  
Maximum Gain  
GV_MAX  
+13  
+15  
+17  
-85  
dB  
dB  
VIN=100mVrms  
GV=20log(VOUT/VIN)  
Volume = -dB  
GV=20log(VOUT/VIN)  
BW = IHF-A  
GV_MIN  
-100  
Maximum Attenuation*  
Attenuation Set Error 1  
Attenuation Set Error 2  
Attenuation Set Error 3  
GV_ERR1  
GV_ERR2  
GV_ERR3  
-2  
-3  
-4  
0
0
0
+2  
+3  
+4  
dB  
dB  
dB  
GAIN & ATT=+15dB to -15dB  
ATT=-16dB to -47dB  
ATT=-48dB to -79dB  
Gain=+20dB f=100Hz  
VIN=100mVrms  
Maximum Boost Gain  
+18  
+20  
+22  
dB  
GB_BST  
GB=20log (VOUT/VIN)  
Gain=-20dB f=100Hz  
VIN=2Vrms  
GB=20log (VOUT/VIN)  
Gain=+20dB to -20dB f=100Hz  
Gain=+20dB f=10kHz  
VIN=100mVrms  
Maximum Cut Gain  
Gain Set Error  
-22  
-2  
-20  
0
-18  
+2  
dB  
dB  
dB  
GB_CUT  
GB_ERR  
GT_BST  
Maximum Boost Gain  
+18  
+20  
+22  
GT=20log (VOUT/VIN)  
Gain=-20dB f=10kHz  
VIN=2Vrms  
GT=20log (VOUT/VIN)  
Gain=+20dB to -20dB f=10kHz  
Maximum Cut Gain  
Gain Set Error  
GT_CUT  
GT_ERR  
-23  
-2  
-20  
0
-17  
+2  
dB  
dB  
Fader = -dB  
Maximum Attenuation*  
GF_MIN  
-100  
-90  
dB  
GF=20log(VOUT/VIN)  
BW = IHF-A  
GF_ERR1  
GF_ERR2  
GF_ERR3  
-2  
-3  
-4  
0
0
0
+2  
+3  
+4  
dB  
dB  
dB  
ATT=0dB to -15dB  
ATT=-16dB to -47dB  
ATT=-48dB to -79dB  
Attenuation Set Error 1  
Attenuation Set Error 2  
Attenuation Set Error 3  
ROUT  
-
50  
Ω
VIN=100mVrms  
Output Impedance  
THD+N=1%  
BW=400Hz-30KHz  
VOM  
2
2.2  
Vrms  
Maximum OutputVoltage  
Gain 20dB  
Maximum Gain  
GL_MAX  
+17  
+20  
+23  
dB  
VIN=100mVrms  
GL=20log(VOUT/VIN)  
GL_ERR  
-2  
0
+2  
dB  
GAIN=+20dB to +1dB  
Gain Set Error  
VP-9690A (Average value detection, effective value display) filter by Matsushita Communication is used for * measurement.  
Phase between input / output is same.  
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5/26  
TSZ2211115001  
BD37513FS  
Typical Performance Curves  
10  
1
10  
50  
40  
30  
20  
10  
0
10kHz  
1kHz  
1
100Hz  
0.1  
0.1  
0.01  
0.001  
0.01  
0.001  
0.001 0.01  
0.1  
1
10  
0
2
4
6
8
10  
Output Voltage : VOUT [Vrms]  
Supply Voltage : VCC [V]  
Figure 2. Total Harmonic Distortion vs Output Voltage  
Figure 1. Quiescent Current vs Supply Voltage  
5
4
3
25  
BASS GAIN : -20dB to +20dB  
20  
/1dB step  
fo : 60Hz Q : 0.5  
15  
2
10  
5
Gain=0dB  
1
0
0
-1  
-2  
-3  
-4  
-5  
-5  
-10  
-15  
-20  
-25  
10  
100  
1k  
10k  
100k  
10  
100  
1k  
10k  
100k  
Frequency [Hz]  
Frequency (Hz)  
Figure 3. Gain vs Frequency  
Figure 4. Bass Gain vs Frequency  
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6/26  
TSZ2211115001  
BD37513FS  
Typical Performance Curves - continued  
25  
1000  
100  
10  
TREBLE GAIN:-20dB to +20dB  
/1dB step  
fo : 7.5kHz Q : 0.75  
20  
Din-Audio  
IHF-A  
15  
10  
5
0
-5  
-10  
-15  
-20  
-25  
1
-80 -70 -60 -50 -40 -30 -20 -10  
0
10 20  
Volume Gain [dB]  
10  
1k  
100k  
Frequency [Hz]  
Figure. Treble Gain vs Frequency  
Figure 6. Output Noise vs Volume Gain  
1000  
100  
10  
1000  
100  
10  
DIN-Audio  
IHF-A  
DIN-Audio  
IHF-A  
1
1
-20 -15 -10 -5  
0
5
10 15 20  
-20 -15 -10 -5  
0
5
10 15 20  
Treble Gain [dB]  
Bass Gain [dB]  
Figure 7. Output Noise vs Bass Gain  
Figure 8. Output Noise vs Treble Gain  
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7/26  
TSZ2211115001  
BD37513FS  
Typical Performance Curves - continued  
0
-10  
-20  
-30  
-40  
-50  
-60  
-70  
2.5  
2.0  
1.5  
1.0  
0.5  
0.0  
10  
100  
1k  
10k  
100k  
100  
1000 10000  
100000  
Frequency [Hz]  
RLOAD [ohm]  
Figure 9. CMRR vs Frequency  
Figure 10. Output Voltage vs RLOAD  
Figure 11. Advanced Switch 1  
Figure 12. Advanced Switch 2  
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8/26  
TSZ2211115001  
BD37513FS  
Timing Chart  
Control Signal Specification  
(1) Electrical Specifications and Timing for bus Lines and I/O Stage  
SDA  
tBUF  
tHD;STAT  
tF  
tSP  
tR  
tLOW  
SCL  
tSU;STOT  
Sr  
tSU;STAT  
tHD;STA  
tSU;DAT  
tHD;DAT  
tHIGH  
S
P
P
Figure 13. I2C-bus Signal Timing Diagram  
Table 1 Characteristics of the SDA and SCL bus lines for I2C-bus devices  
Parameter  
Fast-modeI2C-bus  
Symbol  
fSCL  
tBUF  
Unit  
Min  
0
1.3  
Max  
400  
kHz  
1
2
SCL clock frequency  
Bus free time between a STOP and START condition  
Hold time (repeated) START condition. After this period, the first clock  
pulse is generated  
μS  
3
tHD;STA  
0.6  
μS  
4
5
6
7
8
9
LOW period of the SCL clock  
HIGH period of the SCL clock  
tLOW  
tHIGH  
1.3  
0.6  
μS  
μS  
μS  
μS  
ns  
Set-up time for a repeated START condition  
Data hold time:  
Data set-up time  
tSU;STA  
tHD;DAT  
tSU;DAT  
tSU;STO  
0.6  
0.06(Note)  
120  
0.6  
Set-up time for STOP condition  
μS  
All values referred to VIH Min and VIL Max Levels (see Table 2).  
(Note) To avoid sending right after the fall-edge of SCL (VIH min of the SCL signal), the transmitting device should set a hold time of 300ns or more for the SDA  
signal.  
For 7(tHD;DAT), 8(tSU;DAT), make the setup in which the margin is fully in.  
Table 2 Characteristics of the SDA and SCL I/O stages for I2C-bus devices  
Fast-modedevices  
Parameter  
Symbol  
Unit  
Min  
-0.3  
2.3  
0
Max  
+1  
5
10 LOW level input voltage:  
11 HIGH level input voltage:  
VIL  
VIH  
V
V
Pulse width of spikes which must be suppressed by the input filter.  
12  
13  
tSP  
50  
0.4  
ns  
V
LOW level output voltage: at 3mA sink current  
VOL1  
0
Input current of each I/O pin with an input voltage between 0.4V and  
4.5V.  
14  
II  
-10  
+10  
μA  
tHD;STA  
:2µs  
t
tHD;DAT  
tSU;DAT  
SU;STO
:2µs  
:1µs  
:1µs  
SCL  
tHIGH  
:1µs  
tBU  
:4µs  
tLO  
:3µs  
F
W
SDA  
SCL clock frequency : 250kHz  
Figure 14. I2C Data Transmission Command Timing Diagram  
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TSZ2211115001  
BD37513FS  
(2) I2C BUS FORMAT  
MSB  
Slave Address  
8bit  
LSB  
MSB  
Select Address  
8bit  
LSB  
MSB  
LSB  
S
1bit  
A
1bit  
A
1bit  
Data  
8bit  
A
P
1bit 1bit  
S
= Start condition (Recognition of start bit)  
Slave Address = Recognition of slave address. The first 7 bits correspond to the slave address.  
The least significant bit is Lwhich corresponds to write mode.  
A
= ACKNOWLEDGE bit (Recognition of acknowledgement)  
Select Address = Select address corresponding to volume, bass or treble.  
Data  
P
= Data on every volume and tone.  
= Stop condition (Recognition of stop bit)  
(3) I2C BUS Interface Protocol  
(a) Basic Format  
S
Slave Address  
MSB LSB  
A
Select Address  
MSB LSB  
A
Data  
MSB LSB  
A
P
(b) Automatic Increment (Select Address increases (+1) according to the number of data.)  
Slave Address Select Address Data1 Data2  
MSB LSB MSB LSB MSB LSB MSB LSB  
(Example) Data1 shall be set as data of address specified by Select Address.  
S
A
A
A
A
DataN  
・・・・  
MSB LSB  
A
P
Data2 shall be set as data of address specified by Select Address +1.  
DataN shall be set as data of address specified by Select Address +N-1.  
(c) Configuration Unavailable for Transmission (In this case, only Select Address1 is set.)  
Slave Address Select Address1 Data Select Address 2 Data  
MSB LSB MSB LSB MSB LSB MSB LSB MSB LSB  
S
A
A
A
A
A
P
NoteIf any data is transmitted as Select Address 2 next to data, it is recognized  
as data, not as Select Address 2.  
(4) Slave Address  
MSB  
A6  
1
LSB  
R/W  
0
A5  
0
A4  
0
A3  
0
A2  
0
A1  
0
A0  
0
80H  
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10/26  
TSZ2211115001  
BD37513FS  
(5) Select Address & Data  
Select  
Address  
(hex)  
MSB  
Data  
LSB  
Items  
D7  
D6  
0
D5  
D4  
D3  
0
D2  
0
D1  
D0  
Advanced  
switch  
ON/OFF  
Advanced switch time  
of Input Gain/Volume  
Tone/Fader/Loudness  
Advanced switch time  
of Mute  
Initial setup 1  
01  
Initial setup 2  
Initial setup 3  
Input Selector  
02  
03  
05  
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
1
Input selector  
Mute  
ON/OFF  
Input gain  
06  
0
0
Input Gain  
Volume gain  
20  
28  
29  
2A  
2B  
2C  
41  
44  
47  
Volume Gain / Attenuation  
Fader Attenuation  
Fader Attenuation  
Fader Attenuation  
Fader Attenuation  
Fader 1ch Front  
Fader 2ch Front  
Fader 1ch Rear  
Fader 2ch Rear  
Test mode 1  
Test mode 2  
Test mode 3  
Test mode 4  
1
0
0
1
0
0
0
1
1
0
0
1
0
0
1
1
0
0
0
1
0
0
0
1
0
0
0
1
1
0
1
0
Bass  
Boost/  
Cut  
1
Treble  
Boost/  
Cut  
0
Bass gain  
51  
54  
57  
0
0
0
0
0
0
Bass Gain  
0
Test mode 5  
Treble gain  
0
0
0
0
0
0
Treble Gain  
Loudness Gain  
System Reset  
75  
FE  
Loudness Hicut  
0
Loudness Gain  
0
1
0
0
1
Advanced switch  
Note  
1. The Advanced Switch works in the latch part while changing from one function to another.  
2. Upon continuous data transfer, the Select Address rolls over because of the automatic increment function, as  
shown below.  
01020305062028292A2B2C  
41444751545775  
3. For the function of Input Selector etc, Advanced Switch is not used. Therefore, please apply mute on the set side  
when changing these settings.  
4. When using mute function of this IC at the time of changing input selector, please switch mute ON/OFF while  
waiting for advanced-mute time.  
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11/26  
TSZ2211115001  
BD37513FS  
Select address 01 (hex)  
MSB  
D7  
Advanced switch time of Mute  
LSB  
D0  
0
1
0
Time  
D6  
0
D5  
D4  
D3  
D2  
D1  
0
0
1
1
0.6msec  
1.0msec  
1.4msec  
3.2msec  
Advanced  
Switch  
ON/OFF  
Advanced switch time  
of Input gain/Volume  
Tone/Fader/Loudness  
0
0
1
Advanced switch time of  
Input gain/Volume/Tone/Fader/Loudness  
MSB  
LSB  
Time  
D7  
D6  
0
D5  
0
0
1
1
D4  
0
1
0
1
D3  
D2  
D1  
D0  
4.7 msec  
7.1 msec  
11.2 msec  
14.4 msec  
Advanced  
Switch  
ON/OFF  
Advanced switch  
Time of Mute  
0
0
MSB  
D7  
Advanced switch ON/OFF  
LSB  
D0  
Mode  
D6  
0
D5  
D4  
D3  
D2  
0
D1  
Advanced switch time  
of Input gain/Volume  
Tone/Fader/Loudness  
OFF  
ON  
0
1
Advanced switch  
Time of Mute  
0
Select address 05(hex)  
Mode  
D7  
0
D6  
0
D5  
0
D4  
0
D3  
0
0
0
0
D2  
0
0
0
0
D1  
0
0
1
1
D0  
0
1
0
1
Initial  
A
B
C
D diff  
0
1
1
1
Input SHORT  
Prohibition  
1
0
0
1
Other setting  
Input SHORT : The input impedance of each input terminal is lowered from 100kΩ(TYP) to 6 kΩ(TYP).  
(For quick charge of coupling capacitor)  
: Initial condition  
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12/26  
TSZ2211115001  
BD37513FS  
Select address 06 (hex)  
MSB  
D7  
Input Gain  
D3  
LSB  
D0  
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
Gain  
D6  
D5  
D4  
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
D2  
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
0
D1  
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
1
0dB  
1dB  
2dB  
3dB  
4dB  
5dB  
6dB  
7dB  
8dB  
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
0
1
9dB  
10dB  
11dB  
12dB  
13dB  
14dB  
15dB  
16dB  
17dB  
18dB  
19dB  
20dB  
Mute  
ON/OFF  
0
0
Prohibition  
1
1
1
1
1
MSB  
D7  
0
Mute ON/OFF  
D4 D3  
LSB  
D0  
Mode  
D6  
0
D5  
0
D2  
D1  
OFF  
ON  
Input Gain  
1
Select address 20, 28, 29, 2A, 2B (hex)  
MSB  
Vol. Fader Gain / Attenuation  
LSB  
Gain & ATT  
D7  
D6  
0
0
D5  
0
0
D4  
0
0
D3  
0
0
D2  
0
0
D1  
0
0
D0  
0
1
0
0
Prohibition  
0
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
1
1
0
1
0
1
15dB  
14dB  
13dB  
0
0
0
-77dB  
-78dB  
-79dB  
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
1
1
1
1
0
1
1
1
0
0
1
1
0
1
0
1
0
Prohibition  
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
-∞dB  
(Only 0dB to -∞dB are available at address 28, 29, 2A, 2B.)  
: Initial condition  
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TSZ2211115001  
BD37513FS  
Select address 51, 57 (hex)  
MSB  
D7  
Bass/ Treble Gain  
LSB  
D0  
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
Gain  
D6  
D5  
D4  
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
D3  
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
0
0
D2  
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
D1  
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
0dB  
1dB  
2dB  
3dB  
4dB  
5dB  
6dB  
7dB  
8dB  
9dB  
10dB  
11dB  
12dB  
13dB  
14dB  
15dB  
16dB  
17dB  
18dB  
19dB  
20dB  
Bass/  
Treble  
Boost  
/cut  
0
0
1
1
1
1
1
1
1
1
0
1
Prohibition  
MSB  
D7  
0
Bass/ Treble Boost/Cut  
D4 D3  
LSB  
D0  
Mode  
D6  
0
D5  
0
D2  
D1  
Boost  
Cut  
Bass/Treble Gain  
1
: Initial condition  
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TSZ2211115001  
BD37513FS  
Select address 75 (hex)  
MSB  
Loudness Hicut  
D4 D3  
LSB  
Mode  
D7  
D6  
0
0
1
1
D5  
0
1
0
1
D2  
D1  
D0  
Hicut1  
Hicut2  
Hicut3  
Hicut4  
0
Loudness Gain  
MSB  
Loudness Gain  
LSB  
Gain  
D7  
D6  
D5  
D4  
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
D3  
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
0
0
D2  
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
D1  
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
D0  
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0dB  
1dB  
2dB  
3dB  
4dB  
5dB  
6dB  
7dB  
8dB  
9dB  
10dB  
11dB  
12dB  
13dB  
14dB  
15dB  
16dB  
17dB  
18dB  
19dB  
20dB  
0
Loudness Hicut  
Prohibition  
1
1
1
1
1
: Initial condition  
(6) About Power ON Reset  
Built-in IC initialization is made during power on of the supply voltage. Please send initial data to all addresses  
at supply voltage on. And please turn on mute at the set side until this initial data is sent.  
Limit  
Parameter  
Symbol  
Unit  
Conditions  
Min  
33  
Typ  
Max  
Rise Time of VCC  
tRISE  
µsec  
V
VCC rise time from 0V to 5V  
VCC Voltage of Release  
Power ON Reset  
VPOR  
4.1  
(7) About External Compulsory Mute Terminal  
It is possible to force mute externally by setting an input voltage to the MUTE terminal.  
Mute Voltage Condition  
GND to 1.0V  
Mode  
MUTE ON  
MUTE OFF  
2.3V to VCC  
Establish the voltage of MUTE in the condition to be defined.  
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TSZ02201-0C2C0E100430-1-2  
16.Dec.2015 Rev.001  
© 2015 ROHM Co., Ltd. All rights reserved.  
15/26  
TSZ2211115001  
BD37513FS  
Application Information  
1. Function and Specifications  
Function  
Specifications  
Input selector  
Input gain  
Mute  
Stereo 3 input  
+20dB to 0dB (1dB step)  
Possible to use “Advanced switch” for prevention of switching noise.  
Possible to use “Advanced switch” for prevention of switching noise.  
Differential 1 input  
+15dB to -79dB (1dB step) , -∞dB  
Possible to use “Advanced switch” for prevention of switching noise.  
Volume  
+20dB to -20dB (1dB step)  
Possible to use “Advanced switch” at changing gain  
Bass  
Q=1  
fo=100Hz  
+20dB to -20dB (1dB step)  
Possible to use “Advanced switch” at changing gain  
Q=1.25 fo=10kHz  
0dB to -79dB, -∞dB  
Possible to use “Advanced switch” for prevention of switching noise.  
20dB to 0dB (1dB step)  
Treble  
Fader  
Loudness  
fo=800Hz  
Possible to use “Advanced switch” for prevention of switching noise.  
www.rohm.com  
TSZ02201-0C2C0E100430-1-2  
16.Dec.2015 Rev.001  
© 2015 ROHM Co., Ltd. All rights reserved.  
16/26  
TSZ2211115001  
BD37513FS  
2. Volume / Fader Volume Attenuation Data  
(dB)  
+15  
+14  
+13  
+12  
+11  
+10  
+9  
+8  
+7  
+6  
+5  
+4  
+3  
+2  
+1  
0
-1  
-2  
-3  
(dB)  
-33  
-34  
-35  
-36  
-37  
-38  
-39  
-40  
-41  
-42  
-43  
-44  
-45  
-46  
-47  
-48  
-49  
-50  
-51  
-52  
-53  
-54  
-55  
-56  
-57  
-58  
-59  
-60  
-61  
-62  
-63  
-64  
-65  
-66  
-67  
-68  
-69  
-70  
-71  
-72  
-73  
-74  
-75  
-76  
-77  
-78  
-79  
-∞  
D7 D6 D5 D4 D3 D2 D1 D0  
D7 D6 D5 D4 D3 D2 D1 D0  
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
1
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
1
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
1
-4  
-5  
-6  
-7  
-8  
-9  
-10  
-11  
-12  
-13  
-14  
-15  
-16  
-17  
-18  
-19  
-20  
-21  
-22  
-23  
-24  
-25  
-26  
-27  
-28  
-29  
-30  
-31  
-32  
For Fader Volume, only 0dB to -∞dB are available.  
Initial condition  
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TSZ02201-0C2C0E100430-1-2  
16.Dec.2015 Rev.001  
© 2015 ROHM Co., Ltd. All rights reserved.  
17/26  
TSZ2211115001  
BD37513FS  
3. Application Circuit  
GND  
SDA  
19  
SCL  
18  
VCC OUTF1 OUTF2 OUTR1 OUTR2  
0.1μ  
MUTE  
10μ  
10μ  
10μ  
10μ  
10μ  
2.2K  
20  
17  
16  
15  
14  
13  
12  
11  
VCC  
GND  
I2C BUS LOGIC  
Fader  
Gain: 0dB to -79dB/1dB step  
no pop noise  
Loudness  
20dB to 0dB/1dB step  
no pop noise  
・f0=800  
Hicut1/2/3/4  
2 Band EQ (Tone control)  
Gain:+20dB to -20dB/1dB  
no pop noise  
Bassf0=100Hz,  
Q=1.0  
Loudness  
Treblef0=10kHz  
Q=1.25  
Volume  
2 Band EQ  
(Tone control)  
Gain+15dB to -79dB/1dB step  
no pop noise  
Input Gain  
Gain:+20dB to 0dB/1dB step  
no pop noise  
Volume/Mute  
Input Gain  
Input selector (3 single-end and 1 stereo ISO)  
GND  
GND  
ISO amp ISO amp  
VCC/2  
1
100k  
100k  
100k  
100k  
250k  
250k  
250k  
250k  
250k  
2
3
4
5
6
7
8
9
10  
10μ  
2.2μ  
2.2μ  
2.2μ  
2.2μ  
2.2μ  
2.2μ  
2.2μ  
10μ  
2.2μ  
Single1  
GND Isoration  
Single2  
Single3  
Unit  
R : [Ω]  
C : [F]  
Notes on Wiring  
Please connect the decoupling capacitor of the power supply in the shortest possible distance to GND.  
GND lines should be one-point connected.  
Wiring pattern of Digital should be away from that of Analog unit and cross-talk should not be acceptable.  
SCL and SDA lines of I2C BUS should not be parallel if possible.  
The lines should be shielded, if they are adjacent to each other.  
Analog input lines should not be parallel if possible. The lines should be shielded, if they are adjacent to each other.  
About TEST pin (Pin 12), please leave it as OPEN.  
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TSZ02201-0C2C0E100430-1-2  
16.Dec.2015 Rev.001  
© 2015 ROHM Co., Ltd. All rights reserved.  
18/26  
TSZ2211115001  
BD37513FS  
Power Dissipation  
About the thermal design of the IC  
Characteristics of an IC have a great deal to do with the temperature at which it is used, and exceeding absolute maximum  
ratings may degrade and destroy the device. Careful consideration must be given to the heat of the IC from the two  
standpoints of immediate damage and long-term reliability of operation.  
Reference data  
SSOP-A20  
1.5  
Measurement condition: ROHM Standard board  
board Size : 70 x 70 x 1.6(mm3)  
material : A FR4 grass epoxy board  
(3% or less of copper foil area)  
0.94W  
1.0  
θja = 133.3°C/W  
0.5  
0.0  
85  
0
25  
50  
75  
100  
125  
150  
Ambient Temperature : Ta (°C)  
Figure 15. Temperature Derating Curve  
(Note) Values are actual measurements and are not guaranteed.  
Power dissipation values vary according to the board on which the IC is mounted  
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19/26  
TSZ2211115001  
BD37513FS  
I/O Equivalent Circuits  
Terminal  
No.  
Terminal  
Name  
Terminal  
voltage  
Equivalent Circuit  
Terminal Description  
A terminal for signal input.  
VCC  
2
3
4
5
A1  
A2  
B1  
B2  
4.25  
4.25  
4.25  
The input impedance is 100kΩ(typ).  
100k  
GND  
VCC  
A terminal for signal input.  
The input impedance is 250kΩ(typ).  
6
7
C1  
C2  
250k  
GND  
VCC  
Input terminal available to Single/Differential  
mode.  
The input impedance is 250kΩ(typ).  
8
9
DP1  
DN  
10  
DP2  
250k  
GND  
A terminal for external compulsory mute.  
If terminal voltage is High level, the mute is  
OFF. And if the terminal voltage is Low level,  
the mute is ON.  
11  
MUTE  
VCC  
1.65V  
GND  
VCC  
A terminal for fader and Subwoofer output.  
13  
14  
15  
16  
OUTR2  
OUTR1  
OUTF2  
OUTF1  
4.25  
GND  
Values in the pin explanation and input/output equivalent circuit are reference values only and are not guaranteed.  
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20/26  
TSZ2211115001  
BD37513FS  
I/O Equivalent Circuit - continued  
Terminal  
No.  
Terminal  
Name  
Terminal  
voltage  
Equivalent Circuit  
Terminal Description  
Power supply terminal.  
17  
VCC  
8.5  
VCC  
18  
SCL  
A terminal for clock input of I2C BUS  
communication.  
1.65V  
GND  
VCC  
19  
SDA  
A terminal for data input of I2C BUS  
communication.  
1.65V  
GND  
VCC  
20  
1
GND  
FIL  
0
Ground terminal.  
1/2 VCC terminal.  
4.25  
Voltage for reference bias of analog signal  
system. The simple precharge circuit and  
simple discharge circuit for an external  
capacitor are built in.  
50k  
50k  
GND  
TEST terminal  
12  
TEST  
-
Values in the pin explanation and input/output equivalent circuit are reference values only and are not guaranteed.  
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21/26  
TSZ2211115001  
BD37513FS  
Operational Notes  
1.  
2.  
Reverse Connection of Power Supply  
Connecting the power supply in reverse polarity can damage the IC. Take precautions against reverse polarity when  
connecting the power supply, such as mounting an external diode between the power supply and the IC’s power  
supply pins.  
Power Supply Lines  
Design the PCB layout pattern to provide low impedance supply lines. Separate the ground and supply lines of the  
digital and analog blocks to prevent noise in the ground and supply lines of the digital block from affecting the analog  
block. Furthermore, connect a capacitor to ground at all power supply pins. Consider the effect of temperature and  
aging on the capacitance value when using electrolytic capacitors.  
3.  
4.  
Ground Voltage  
Ensure that no pins are at a voltage below that of the ground pin at any time, even during transient condition.  
Ground Wiring Pattern  
When using both small-signal and large-current ground traces, the two ground traces should be routed separately but  
connected to a single ground at the reference point of the application board to avoid fluctuations in the small-signal  
ground caused by large currents. Also ensure that the ground traces of external components do not cause variations  
on the ground voltage. The ground lines must be as short and thick as possible to reduce line impedance.  
5.  
Thermal Consideration  
Should by any chance the power dissipation rating be exceeded the rise in temperature of the chip may result in  
deterioration of the properties of the chip. In case of exceeding this absolute maximum rating, increase the board size  
and copper area to prevent exceeding the Pd rating.  
6.  
7.  
Recommended Operating Conditions  
These conditions represent a range within which the expected characteristics of the IC can be approximately obtained.  
The electrical characteristics are guaranteed under the conditions of each parameter.  
Inrush Current  
When power is first supplied to the IC, it is possible that the internal logic may be unstable and inrush current may flow  
instantaneously due to the internal powering sequence and delays, especially if the IC has more than one power  
supply. Therefore, give special consideration to power coupling capacitance, power wiring, width of ground wiring, and  
routing of connections.  
8.  
9.  
Operation Under Strong Electromagnetic Field  
Operating the IC in the presence of a strong electromagnetic field may cause the IC to malfunction.  
Testing on Application Boards  
When testing the IC on an application board, connecting a capacitor directly to a low-impedance output pin may  
subject the IC to stress. Always discharge capacitors completely after each process or step. The IC’s power supply  
should always be turned off completely before connecting or removing it from the test setup during the inspection  
process. To prevent damage from static discharge, ground the IC during assembly and use similar precautions during  
transport and storage.  
10.  
11.  
Inter-pin Short and Mounting Errors  
Ensure that the direction and position are correct when mounting the IC on the PCB. Incorrect mounting may result in  
damaging the IC. Avoid nearby pins being shorted to each other especially to ground, power supply and output pin.  
Inter-pin shorts could be due to many reasons such as metal particles, water droplets (in very humid environment) and  
unintentional solder bridge deposited in between pins during assembly to name a few.  
Unused Input Pins  
Input pins of an IC are often connected to the gate of a MOS transistor. The gate has extremely high impedance and  
extremely low capacitance. If left unconnected, the electric field from the outside can easily charge it. The small charge  
acquired in this way is enough to produce a significant effect on the conduction through the transistor and cause  
unexpected operation of the IC. So unless otherwise specified, unused input pins should be connected to the power  
supply or ground line.  
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22/26  
TSZ2211115001  
BD37513FS  
Operational Notes continued  
12.  
Regarding the Input Pin of the IC  
This monolithic IC contains P+ isolation and P substrate layers between adjacent elements in order to keep them  
isolated. P-N junctions are formed at the intersection of the P layers with the N layers of other elements, creating a  
parasitic diode or transistor. For example (refer to figure below):  
When GND > Pin A and GND > Pin B, the P-N junction operates as a parasitic diode.  
When GND > Pin B, the P-N junction operates as a parasitic transistor.  
Parasitic diodes inevitably occur in the structure of the IC. The operation of parasitic diodes can result in mutual  
interference among circuits, operational faults, or physical damage. Therefore, conditions that cause these diodes to  
operate, such as applying a voltage lower than the GND voltage to an input pin (and thus to the P substrate) should be  
avoided.  
Resistor  
Transistor (NPN)  
Pin A  
Pin B  
Pin B  
B
E
C
Pin A  
B
C
E
P
P+  
P+  
N
P+  
P
P+  
N
N
N
N
N
N
N
Parasitic  
Elements  
Parasitic  
Elements  
P Substrate  
GND GND  
P Substrate  
GND  
GND  
Parasitic  
Elements  
Parasitic  
Elements  
N Region  
close-by  
Figure 16. Example of monolithic IC structure  
13.  
About a Signal Input Part  
(a) About Input Coupling Capacitor Constant Value  
In the input signal terminal, please decide the constant value of the input coupling capacitor C(F) that would be  
sufficient to form an RC characterized HPF with input impedance RIN(Ω) inside the IC.  
GdB〕  
CF〕  
0
RIN  
〔Ω〕  
A(f)  
SSH  
fHz〕  
INPUT  
2
2fCRIN  
A
f   
2
12fCRIN  
(b) About the Input Selector SHORT  
SHORT mode is the command which makes switch SSH =ON of input selector part so that the input impedance  
RIN of all terminals becomes small. Switch SSH is OFF when SHORT command is not selected.  
The constant time brought about by the small resistance inside and the capacitor outside the LSI becomes  
small when this command is used. The charge time of the capacitor becomes short. Since SHORT mode turns  
ON the switch of SSH and makes it low impedance, please use it at no signal condition.  
14.  
15.  
About Mute Terminal(Pin 11) when power supply is OFF  
There should be no applied voltage across the Mute terminal (Pin 11) when power-supply is OFF.  
A resistor (about 2.2kΩ) should be connected in series to Mute terminal in case a voltage is supplied to Mute terminal.  
(Please refer Application Circuit Diagram.)  
About TEST Pin  
TEST Pin, should be OPEN.  
Pin 12 are TEST Pins.  
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23/26  
TSZ2211115001  
BD37513FS  
Ordering Information  
B
D
3
7
5
1
3
F
S
-
E 2  
Part Number  
Package  
Packaging and forming specification  
E2: Embossed tape and reel  
FS: SSOP-A20  
Marking Diagram  
SSOP-A20(TOP VIEW)  
Part Number Marking  
LOT Number  
BD37513FS  
1PIN MARK  
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24/26  
TSZ2211115001  
BD37513FS  
Physical Dimension, Tape and Reel Information  
Package Name  
SSOP-A20  
(Max 9.05 (include.BURR))  
(UNIT : mm)  
PKG : SSOP-A20  
Drawing No. : EX132-5001  
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BD37513FS  
Revision History  
Date  
Revision  
001  
Changes  
16.Dec.2015  
New Release  
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Daattaasshheeeett  
Notice  
Precaution on using ROHM Products  
1. Our Products are designed and manufactured for application in ordinary electronic equipments (such as AV equipment,  
OA equipment, telecommunication equipment, home electronic appliances, amusement equipment, etc.). If you  
intend to use our Products in devices requiring extremely high reliability (such as medical equipment (Note 1), transport  
equipment, traffic equipment, aircraft/spacecraft, nuclear power controllers, fuel controllers, car equipment including car  
accessories, safety devices, etc.) and whose malfunction or failure may cause loss of human life, bodily injury or  
serious damage to property (“Specific Applications”), please consult with the ROHM sales representative in advance.  
Unless otherwise agreed in writing by ROHM in advance, ROHM shall not be in any way responsible or liable for any  
damages, expenses or losses incurred by you or third parties arising from the use of any ROHM’s Products for Specific  
Applications.  
(Note1) Medical Equipment Classification of the Specific Applications  
JAPAN  
USA  
EU  
CHINA  
CLASS  
CLASSⅣ  
CLASSb  
CLASSⅢ  
CLASSⅢ  
CLASSⅢ  
2. ROHM designs and manufactures its Products subject to strict quality control system. However, semiconductor  
products can fail or malfunction at a certain rate. Please be sure to implement, at your own responsibilities, adequate  
safety measures including but not limited to fail-safe design against the physical injury, damage to any property, which  
a failure or malfunction of our Products may cause. The following are examples of safety measures:  
[a] Installation of protection circuits or other protective devices to improve system safety  
[b] Installation of redundant circuits to reduce the impact of single or multiple circuit failure  
3. Our Products are designed and manufactured for use under standard conditions and not under any special or  
extraordinary environments or conditions, as exemplified below. Accordingly, ROHM shall not be in any way  
responsible or liable for any damages, expenses or losses arising from the use of any ROHM’s Products under any  
special or extraordinary environments or conditions. If you intend to use our Products under any special or  
extraordinary environments or conditions (as exemplified below), your independent verification and confirmation of  
product performance, reliability, etc, prior to use, must be necessary:  
[a] Use of our Products in any types of liquid, including water, oils, chemicals, and organic solvents  
[b] Use of our Products outdoors or in places where the Products are exposed to direct sunlight or dust  
[c] Use of our Products in places where the Products are exposed to sea wind or corrosive gases, including Cl2,  
H2S, NH3, SO2, and NO2  
[d] Use of our Products in places where the Products are exposed to static electricity or electromagnetic waves  
[e] Use of our Products in proximity to heat-producing components, plastic cords, or other flammable items  
[f] Sealing or coating our Products with resin or other coating materials  
[g] Use of our Products without cleaning residue of flux (even if you use no-clean type fluxes, cleaning residue of  
flux is recommended); or Washing our Products by using water or water-soluble cleaning agents for cleaning  
residue after soldering  
[h] Use of the Products in places subject to dew condensation  
4. The Products are not subject to radiation-proof design.  
5. Please verify and confirm characteristics of the final or mounted products in using the Products.  
6. In particular, if a transient load (a large amount of load applied in a short period of time, such as pulse. is applied,  
confirmation of performance characteristics after on-board mounting is strongly recommended. Avoid applying power  
exceeding normal rated power; exceeding the power rating under steady-state loading condition may negatively affect  
product performance and reliability.  
7. De-rate Power Dissipation depending on ambient temperature. When used in sealed area, confirm that it is the use in  
the range that does not exceed the maximum junction temperature.  
8. Confirm that operation temperature is within the specified range described in the product specification.  
9. ROHM shall not be in any way responsible or liable for failure induced under deviant condition from what is defined in  
this document.  
Precaution for Mounting / Circuit board design  
1. When a highly active halogenous (chlorine, bromine, etc.) flux is used, the residue of flux may negatively affect product  
performance and reliability.  
2. In principle, the reflow soldering method must be used on a surface-mount products, the flow soldering method must  
be used on a through hole mount products. If the flow soldering method is preferred on a surface-mount products,  
please consult with the ROHM representative in advance.  
For details, please refer to ROHM Mounting specification  
Notice-PGA-E  
Rev.002  
© 2015 ROHM Co., Ltd. All rights reserved.  
Daattaasshheeeett  
Precautions Regarding Application Examples and External Circuits  
1. If change is made to the constant of an external circuit, please allow a sufficient margin considering variations of the  
characteristics of the Products and external components, including transient characteristics, as well as static  
characteristics.  
2. You agree that application notes, reference designs, and associated data and information contained in this document  
are presented only as guidance for Products use. Therefore, in case you use such information, you are solely  
responsible for it and you must exercise your own independent verification and judgment in the use of such information  
contained in this document. ROHM shall not be in any way responsible or liable for any damages, expenses or losses  
incurred by you or third parties arising from the use of such information.  
Precaution for Electrostatic  
This Product is electrostatic sensitive product, which may be damaged due to electrostatic discharge. Please take proper  
caution in your manufacturing process and storage so that voltage exceeding the Products maximum rating will not be  
applied to Products. Please take special care under dry condition (e.g. Grounding of human body / equipment / solder iron,  
isolation from charged objects, setting of Ionizer, friction prevention and temperature / humidity control).  
Precaution for Storage / Transportation  
1. Product performance and soldered connections may deteriorate if the Products are stored in the places where:  
[a] the Products are exposed to sea winds or corrosive gases, including Cl2, H2S, NH3, SO2, and NO2  
[b] the temperature or humidity exceeds those recommended by ROHM  
[c] the Products are exposed to direct sunshine or condensation  
[d] the Products are exposed to high Electrostatic  
2. Even under ROHM recommended storage condition, solderability of products out of recommended storage time period  
may be degraded. It is strongly recommended to confirm solderability before using Products of which storage time is  
exceeding the recommended storage time period.  
3. Store / transport cartons in the correct direction, which is indicated on a carton with a symbol. Otherwise bent leads  
may occur due to excessive stress applied when dropping of a carton.  
4. Use Products within the specified time after opening a humidity barrier bag. Baking is required before using Products of  
which storage time is exceeding the recommended storage time period.  
Precaution for Product Label  
QR code printed on ROHM Products label is for ROHM’s internal use only.  
Precaution for Disposition  
When disposing Products please dispose them properly using an authorized industry waste company.  
Precaution for Foreign Exchange and Foreign Trade act  
Since concerned goods might be fallen under listed items of export control prescribed by Foreign exchange and Foreign  
trade act, please consult with ROHM in case of export.  
Precaution Regarding Intellectual Property Rights  
1. All information and data including but not limited to application example contained in this document is for reference  
only. ROHM does not warrant that foregoing information or data will not infringe any intellectual property rights or any  
other rights of any third party regarding such information or data.  
2. ROHM shall not have any obligations where the claims, actions or demands arising from the combination of the  
Products with other articles such as components, circuits, systems or external equipment (including software).  
3. No license, expressly or implied, is granted hereby under any intellectual property rights or other rights of ROHM or any  
third parties with respect to the Products or the information contained in this document. Provided, however, that ROHM  
will not assert its intellectual property rights or other rights against you or your customers to the extent necessary to  
manufacture or sell products containing the Products, subject to the terms and conditions herein.  
Other Precaution  
1. This document may not be reprinted or reproduced, in whole or in part, without prior written consent of ROHM.  
2. The Products may not be disassembled, converted, modified, reproduced or otherwise changed without prior written  
consent of ROHM.  
3. In no event shall you use in any way whatsoever the Products and the related technical information contained in the  
Products or this document for any military purposes, including but not limited to, the development of mass-destruction  
weapons.  
4. The proper names of companies or products described in this document are trademarks or registered trademarks of  
ROHM, its affiliated companies or third parties.  
Notice-PGA-E  
Rev.002  
© 2015 ROHM Co., Ltd. All rights reserved.  
Daattaasshheeeett  
General Precaution  
1. Before you use our Pro ducts, you are requested to care fully read this document and fully understand its contents.  
ROHM shall not be in an y way responsible or liable for failure, malfunction or accident arising from the use of a ny  
ROHM’s Products against warning, caution or note contained in this document.  
2. All information contained in this docume nt is current as of the issuing date and subj ect to change without any prior  
notice. Before purchasing or using ROHM’s Products, please confirm the la test information with a ROHM sale s  
representative.  
3. The information contained in this doc ument is provi ded on an “as is” basis and ROHM does not warrant that all  
information contained in this document is accurate an d/or error-free. ROHM shall not be in an y way responsible or  
liable for any damages, expenses or losses incurred by you or third parties resulting from inaccuracy or errors of or  
concerning such information.  
Notice – WE  
Rev.001  
© 2015 ROHM Co., Ltd. All rights reserved.  
Datasheet  
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BD37513FS  
SSOP-A20  
2000  
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Constitution Materials List  
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2000  
Taping  
inquiry  
Yes  
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