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产品型号BU8241F的Datasheet PDF文件预览

Communication ICs  
Cross point mixer for telephones  
BU8241F / BU8241FS / BU8242F / BU8244F  
The BU8241F, BU8241FS, BU8242F, and BU8244F are ICs developed for use with cordless telephones, and are  
equipped with switching and mixing functions. In addition, these ICs are provided with an internal power save function  
which enables the circuit to be run on line current if the power supply fails, by connecting a switch between the circuit  
and a new handset, reducing line current consumption. A series of these ICs is also under development, based on the  
number of circuits.  
FApplications  
Telephones, telephone answering machines, cordless  
telephones  
FFeatures  
1) Eight input signals are selected and mixed by a  
cross-point, and output to eight pins (BU8241F/  
BU8241FS).  
3) Serial binary data input.  
4) Low voltage and current consumption.  
2) A power save mode enables the circuit to run on line  
current if the power supply fails.  
1. Line current consumption reduced  
(IDD2 = 580µA)  
2. IN1 ! OUT1 and IN2 ! OUT2 only are on  
266  
Communication ICs  
BU8241F / BU8241FS / BU8242F / BU8244F  
FBlock diagram  
267  
Communication ICs  
BU8241F / BU8241FS / BU8242F / BU8244F  
FAbsolute maximum ratings (Ta = 25_C)  
FRecommended operating range (Ta = 25_C)  
268  
Communication ICs  
BU8241F / BU8241FS / BU8242F / BU8244F  
FElectrical characteristics (unless otherwise noted, Ta = 25_C, VDD = 5V)  
269  
Communication ICs  
BU8241F / BU8241FS / BU8242F / BU8244F  
FPin descriptions  
FInput/output circuits  
270  
Communication ICs  
BU8241F / BU8241FS / BU8242F / BU8244F  
FCircuit operation  
Sections (1) to (3) below describe operation using the  
BU8241F and BU8241FS as examples.  
(1) Analog signals pass through an input amplifier and  
are supplied to eight switches.  
After the 64 data bits have been read, supply of the rising  
edge of the clock is stopped, the LATCH pin is set to  
HIGH, and the switches are set. (See Figure 2 for the tim-  
ing waveform.)  
The analog input signals are turned on and off by the  
switches and can thus be directed to any desired output  
amplifier. Using mixing resistors connected to the out-  
puts of the switches, and feedback resistors, each output  
amplifier can output a signal that is a mix of up to eight  
input signals.  
To change a switch setting, new setting data and shift  
clocks must be supplied for 64 bits of data, and the  
LATCH pin set to HIGH. If the LATCH pin is set to HIGH  
before 64 shift clocks have been supplied, or after more  
than 64 have been supplied, the switches cannot be set  
properly. (See Table 1 for the logic of switch settings.)  
Table.1 Switch Sn stage (Note 6)  
(2) The switch states are set using a 64-bit shift register  
and data latch.  
The shift register reads the data at the rising edge of the  
shift clock, and stores it until the next data is read at the  
rising edge of the next shift clock.  
(3) The power save mode is set as long as the PS pin is  
kept HIGH. (See Table2forthepowersavesettinglogic.)  
In the power save mode, the following are fixed : IN1 !  
OUT1 (S1 = ON) and IN2 ! OUT2 (S10 = ON). (The oth-  
er 62 switches are off.) In addition, the line current is re-  
duced. When the PS pin goes from HIGH to LOW, the IC  
state switches from the power save mode back to normal  
operation. At that point, the state of the switch remains  
in the power save mode (only S1 and S10 are on). (See  
Figure 3 for the timing waveform in the power save  
mode.)  
(5) With the BU8244F, DIN is 16 bits.  
The ON path in the power save mode is the same for the  
BU8241F and BU8241FS, but the pertinent switches are  
S1 and S6.  
Table.2 Power save setting theory  
(4) With the BU8242F, of the 64 data bits, the following  
should be input at LOW level : D3, D4, D11, D12, D17 to D32,  
D35, D36, D43, D44, D51, D52, D59, and D60.  
271  
Communication ICs  
BU8241F / BU8241FS / BU8242F / BU8244F  
FApplication example  
272  
Communication ICs  
BU8241F / BU8241FS / BU8242F / BU8244F  
FSelecting attached components  
1) Components related to power supply and bias  
3) Components related to output pins  
C602: VDD bias capacitor; normally 10µF  
C613 to C620: DC cutoff capacitor. A value should be  
selectedwhich does not attenuate voice  
signals in the high band (300 Hz X).  
R613 to R620: Output load resistors. This should nor-  
mally be left open.  
C603: VB decoupling capacitor; normally 10µF  
2) Components related to input pins  
If using R615 to R620, select values that  
result in a total input impedance of 10kΩ  
or greater on the output side. If the total  
impedance is less than 10k, the load  
on the output amplifier of the cross-point  
mixer will be excessive, and signals  
may be lost.  
C605 to C612: DC cutoff capacitor. A value should be  
selectedwhich does not attenuate voice  
signals in the high band (300 Hz X).  
R605 to R612: Resistor which sets the input level. This  
should normally be left open.  
The constants shown in Figure 8 are set  
to match the oscillator output imped-  
ance.  
273  
Communication ICs  
BU8241F / BU8241FS / BU8242F / BU8244F  
FOperation notes  
(1) Turning on the power supply  
(4) Gain and noise when mixing signals  
When the power supply is turned on, the shift register is  
in an indeterminate state. After turning on the power sup-  
ply, switch settings should be entered by supplying shift  
clock pulses to shift 64 bits of data into the shift register,  
and then setting the LATCH pin to HIGH. (For the  
BU8244, send 16 clock pulses.)  
Increasing the number of signals mixed in a single output  
(increasing the number of switches connected to the  
same output amplifier that are on) causes a slight drop  
in gain. With the BU8241 and BU8241FS /  
BU8242F, increasing the number of signals mixed in a  
single output (increasing the number of switches con-  
nected to the same output amplifier that are on) causes  
a slight increase in the noise level in terms of logic. If  
noise is a problem, we recommend limiting the number  
of signals mixed in a single output.  
(2) Setting serial data  
If the number of bits shifted or clock pulses applied is less  
than or more than the number stated above, the switches  
will not be set properly. Never apply shift clock pulses  
when the LATCH pin is HIGH. Doing so will change the  
data latch contents.  
(5) Output load capacitance  
The capacitance connected to GND in relation to an out-  
put pin (the output load capacitance) should be kept to  
50pF or lower. (BU8241F/BU8241FS/ BU8242F)  
(3) Drive impedance  
The input impedance Zin is 80 ± 32k.  
To suppress input gain and loss, we recommend using  
the drive impedance shown in the table below.  
If the level is to be attenuated at the input pin, make sure  
the level is not affected by the internal resistance of the  
IC, as shown in Figure 10. This can cause gain and/or  
loss.  
FElectrical characteristic curves  
274  
Communication ICs  
BU8241F / BU8241FS / BU8242F / BU8244F  
FElectrical characteristic curves  
275  
Communication ICs  
BU8241F / BU8241FS / BU8242F / BU8244F  
FExternal dimensions (Units: mm)  
276  
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