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FX803 Datasheet, PDF (7/17 Pages) Sanyo Semicon Device – DC-DC Converter | |||
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Controlling Protocol ......
Tx Tone Generator Registers 1 and 2
Each Tx Tone Generator is controlled individually by writing a two-byte command to the relevant Tx Tone Generator
Register. The format of this command word, which is different for each tone generator, is shown below with the calculations
required for tone frequency (f ) generation described in the following text.
TONE
âWrite to Tx Tone Generator 1 Registerâ â A/C 34 followed by 2 bytes of Command Data.
H
MSB
Bit Numbers
LSB
(loaded first)
(loaded last)
15
14
13
12 11 10 9
8
7
6
5
4
3
2
1
0
â0â â0â
VBIAS/
Enable
These 13 bits (0 to 12) are used to produce a binary number, designated âA.â
âAâ is used in the formulas below to set the Tx Tone 1 frequency (fTONE 1).
The binary number produced by bits 0 to 12 (MSB) is
designated "A."
If âAâ = all logic â0â then Tx Tone Generator 1 is
Powersaved.
Bit
13
at
logic
â1â
=
Tone
1
Output
at
V
BIAS
(NOTONE).
â0â = Tone 1 Output Enabled.
Bits 14 and 15 (MSB) must be logic â0.â
Table 4 Setting Tx Tone Generator 1
âWrite to Tx Tone Generator 2 Registerâ â A/C 35 followed by 2 bytes of Command Data.
H
MSB
(loaded first)
15
14
Bit Numbers
13
12 11 10 9
8
7
6
5
4
3
2
LSB
(loaded last)
1
0
â0â CAL/
CUES
VBIAS/
Enable
These 13 bits (0 to 12) are used to produce a binary number, designated âB.â
âBâ is used in the formulas below to set the Tx Tone 2 frequency (f 2).
TONE
The binary number produced by bits 0 to 12 (MSB) is
designated "B."
If âBâ = all logic â0â then Tx Tone Generator 2 is
Powersaved.
Table 5 Setting Tx Tone Generator 2
Bit
13
at
logic
â1â
=
Tone
1
Output
at
V
BIAS
(NOTONE).
â0â = Tone 1 Output Enabled.
Bit 14 at logic â1â = Squarewave CAL Output.
â0â = Sinewave CUES Output.
Bit 15 (MSB) must be a logic â0.â
Notes
(1)
Programming
Tone
Generator
2
to
V
BIAS
(NOTONE)
(Bit
13)
will
place
the
CAL/CUES
Output
at
V
BIAS
via
a
40kâ¦
internal resistor.
(2) Programming Tone Generator 2 to Powersave will place the CAL/CUES Output at V .
SS
(3) If both Tone Generators (1 and 2) are Powersaved, the Summing Amplifier is also Powersaved.
Calculations
As can be seen from Tables 4 and 5 (above), a binary number (âAâ or âBâ â Bits 0 to 12) is loaded to the respective Tx Tone
Generator. The formulas shown below are used to calculate the required output frequency.
Required Tx Tone output frequency
XTAL/clock frequency
Input Data Word (Bits 0 to 12)
=
fTONE1 or 2
=f
XTAL
= âAâ or âBâ
Formula
f = TONE (HZ)
fXTAL (HZ)
4 x âAâ (or âBâ)
or Input âAâ (or âBâ) = fXTAL (HZ)
4 x fTONE (HZ)
Tx Tone Frequencies
With reference to Tables 4 and 5 (above), whilst Input Data Words âAâ or âBâ can be programmed for frequencies outside the
stated limits of 208Hz and 3000Hz, any output frequencies obtained may not be within specified parameters
(see âSpecificationâ page).
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