SANYO LC72345W, LC72344W Datasheet

Ordering number : ENN6171
31000RM (OT) No. 6171-1/13
Overview
The LC72344W and LC72345W are low-voltage electronic tuning microcontrollers that include a DC-DC converter, a PLL that operates up to 230 MHz, a 1/4 duty 1/2 bias LCD driver and other functions on chip. The built-in DC-DC converter provided by these ICs can easily implement a tuning system voltage generator circuit, and furthermore, since the transistor required for the low-pass filter is built in, these ICs can contribute to further end product cost reductions. Additionally, the DC-DC converter output voltage can be provided to other external ICs, making these products optimal for low-voltage portable audio equipment that includes a radio receiver.
Functions
• Program memory (ROM): 3072 × 16 bits (6 KB)
LC72344W 4096 × 16 bits (8 KB) LC72345W
• Data memory (RAM): 192 × 4 bits LC72344W 256 × 4 bits LC72345W
• Cycle time: 40 µs (all 1-word instructions)
• Stack: 8 levels
• LCD driver: 48 to 76 segments (1/4 duty, 1/2 bias drive)
• Interrupts: One external interrupt
Timer interrupts (1, 5, 10, and 50 ms)
• A/D converter: Two input channels (5-bit successive
approximation conversion)
as A/D converter inputs)
• Output ports: 6 ports (of which 1 can be switched for use
as the beep tone output and 2 are open­drain ports)
• I/O ports: 16 ports (of which 8 can be switched for use
as LCD ports as mask options)
(Continued on next page.)
LC72344W, 72345W
SANYO Electric Co.,Ltd. Semiconductor Company
TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110-8534 JAPAN
Low-Voltage ETR Controller with On-Chip DC-DC
Converter
CMOS IC
Any and all SANYO products described or contained herein do not have specifications that can handle applications that require extremely high levels of reliability, such as life-support systems, aircraft’s control systems, or other applications whose failure can be reasonably expected to result in serious physical and/or material damage. Consult with your SANYO representative nearest you before using any SANYO products described or contained herein in such applications.
SANYO assumes no responsibility for equipment failures that result from using products at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other parameters) listed in products specifications of any and all SANYO products described or contained herein.
Package Dimensions
unit: mm
3190-SQFP64
10.0
12.0
1.25
0.51.25
1.25 0.5 1.250.18
12.0
116
17
32
33
48
49
64
10.0
0.5
1.7max
0.5
0.1
0.15
SANYO: SQFP64
[LC72344W, 72345W]
(Continued from preceding page.)
• PLL: Supports dead band control (two types)
Reference frequencies: 1, 3, 5, 6.25, 12.5, and 25 kHz
• Input frequencies: FM band: 10 to 230 MHz
AM band: 0.5 to 10 MHz
• Input sensitivity: FM band: 35 mV rms (50 mV rms at
130 MHz or higher frequency) AM band: 35 mV rms
• External reset input: During CPU and PLL operation,
instruction execution is started from location 0.
• Built-in power-on reset circuit:
The CPU starts executing from location 0 when power is first applied.
• Static power-on function: Backup state clear function
using the BATT pin.
• Halt mode: The controller operating clock is stopped.
• Backup mode: The crystal oscillator is stopped.
• Beep tone: 1.5 and 3.1 kHz
• Built-in DC-DC converter:
Two systems (One system can be used as an external circuit power supply by providing an external transistor.)
• Built-in low-pass filter amplifier: An external low-pass filter amplifier circuit is no longer required in end products.
• Remaining power check function: The battery voltage can be directly converted to a digital value by the A/D converter.
• Memory retention voltage: 0.9 V or higher.
•VDDvoltage: 0.9 to 1.8 V
• Package: SQFP-64 (0.5 mm lead pitch)
No. 6171-2/13
LC72344W, 72345W
LC72344W LC72345W
XIN
TEST1
AGND
AOUT
AIN
EO
VSS
AMIN
FMIN
VDD
BRES
COM1
COM3
COM2S1COM4
XOUT
TEST2
PA3
PA2
PA1
PA0
PB3
PB2
PB1
PB0
PC3
PD3
PC2
PC1
PC0
PD2
PD1
PG2/S18
S2
S5
S7
S9
S12/PH0
S11
S8
S6
S4
S3
S10
S13/PH1
S15/PH3
S14/PH2
S17/PG1
(Top view)
S16/PG0
1
2
3
4
5
6
7
8
11
9
10
14
15
12
16
13
17
PE1
INT/PD0
BEEP/PE0
BATT
ADI0/PF0
ADI1/PF1
VDC1
VDC3
VSS
VDC2
VREF
VCON
VADJ
PG3/S19
32
19
18
20
21
22
23
24
25
28
30
31
29
27
26
48
47
45
46
43
44
41
39
40
42
36
37
38
35
33
34
52
50
53
61
54
55
57
49
56
59
58
51
60
63
62
64
Pin Assignment
No. 6171-3/13
LC72344W, 72345W
Parameter Symbol Conditions Ratings Unit
V
DD
(1)max VDD –0.3 to +0.3 V
Maximum supply voltage
V
DD
(2)max VDC1 –0.3 to +4.0 V
V
DD
(3)max VDC2 –0.3 to +4.0 V
V
DD
(4)max VDC3 –0.3 to +4.0 V
Input voltage
V
IN
(1) PF, FMIN, AMIN, AIN, BATT, and BRES –0.3 to VDD(3) to +0.3 V
V
IN
(2) PA, PC, PD, PG, and PH –0.3 to VDD(1) to +0.3 V
V
OUT
(1) AOUT, and PE –0.3 to +15 V
Output voltage
V
OUT
(2) PB, PC, PD, PG, and PH –0.3 to VDD(1) +0.3 V
V
OUT
(3) VREF, and EO –0.3 to VDD(3) +0.3 V
V
OUT
(4) COM1 to COM4, S1 to S19 –0.3 to VDD(4) +0.3 V
I
OUT
(1) PC, PD, PG, PH, and EO 0 to 3 mA
I
OUT
(2) PB 0 to 1 mA
Output current I
OUT
(3) AOUT, and PE 0 to 2 mA
I
OUT
(4) S1 to S20 300 µA
I
OUT
(5) COM1 to COM4 3 mA Allowable power dissipation Pdmax Ta = –20 to +70°C 200 mW Operating temperature Topr –20 to +70 °C Storage temperature Tstg –45 to +125 °C
Specifications
Absolute Maximum Ratings at Ta = 25°C, VSS= 0 V
Parameter Symbol Conditions
Ratings
Unit
min typ max
V
DD
(1) The voltage applied to the VDD pin 0.9 1.5 1.8 V
V
DD
(2) The voltage applied to the VDC1 pin 0.9 1.5 1.8 V
Supply voltage V
DD
(3) The voltage applied to the VDC2 pin 1.8 2.1 2.4 V
V
DD
(4) The voltage applied to the VDC3 pin 2.6 3.0 3.4 V
V
DD
(5) Memory retention voltage 0.9 V
V
IH
(1) Ports PC, PD, PG, and PH 0.7 VDD(1) VDD(1) V
Input high-level voltage
V
IH
(2) Port PA 0.8 VDD(1) VDD(1) V
V
IH
(3) Port PF 0.8 VDD(1) VDD(3) V
V
IH
(4) Ports BRES and BATT 0.6 VDD(1) VDD(3) V
V
IL
(1) Ports PC, PD, PG, and PH 0 0.3 VDD(1) V
Input low-level voltage
V
IL
(2) Port PA 0 0.2 VDD(1) V
V
IL
(3) Port PF 0 0.2 VDD(1) V
V
IL
(4) Ports BRES and BATT 0 0.2 VDD(1) V
V
IN
(1) XIN 0.5 0.6 Vrms
Input amplitude V
IN
(2) FMIN, AMIN: VDD(3) = 2.1 V 0.035 0.35 Vrms
V
IN
(3) FMIN: VDD(3) = 2.1 V 0.05 0.35 Vrms
Input voltage range V
IN
(4) ADI0, ADI1, and V
DD
0V
DD
(4) V
F
IN
(1) XIN: CI 35 k 70 75 80 kHz
Input frequency
F
IN
(2) FMIN: VIN(2), VDD(3) = 2.1 V 10 130 MHz
F
IN
(3) FMIN: VIN(3), VDD(3) = 2.1 V 130 230 MHz
F
IN
(4) AMIN(L): VIN(2), VDD(3) = 2.1 V 0.5 10 MHz
Allowable Operating Ranges at Ta = –20 to +70°C, VDD= 0.9 to 1.8 V
No. 6171-4/13
LC72344W, 72345W
Parameter Symbol Conditions
Ratings
Unit
min typ max
I
IH
(1) XIN: VDD(1) = 1.8 V, VDD(2) = 1.8 V, VDD(3) = 2.1 V 3 µA
I
IH
(2) FMIN, and AMIN: VDD(3) = 2.1 V 3 8 20 µA
Input high-level voltage I
IH
(3) Ports BRES, BATT, and PF: VDD(3) = 2.1 V 4 µA
I
IH
(4)
Ports PA (no pull-down resistor), PC, PD, PG, and PH:
A
V
DD
(1) = 1.8 V
I
IL
(1) XIN: VDD(1) = VDD(2) = VDD(3) = V
SS
–3 µA
I
IL
(2) FMIN, and AMIN: VDD(3) = V
SS
–3 –8 –20 µA
Input low-level voltage I
IL
(3) Ports BRES, BATT, and PF: VDD(3) = V
SS
–4 µA
I
IL
(4)
Ports PA (no pull-down resistor), PC, PD, PG, and PH:
–3 µA
V
DD
(1) = V
SS
Input floating voltage V
IF
Port PA pull-down resistor present
0.05 VDD(1)
V
Pull-down resistor
R
PD
(1) Port PA pull-down resistor: VDD(1) = 1.3 V 75 100 200 k
R
PD
(2) TEST1 and TEST2 pull-down resistors 10 k
Hysteresis V
H
BRES 0.1 VDD(3) 0.2 VDD(3) V
V
OH
(1) PB: IO= 1 mA
V
DD
(1) – VDD(1) –
V
0.7 V
DD
(1) 0.3 VDD(1)
V
OH
(2) PC, PD, PG, PH: IO= 1 mA
V
DD
(1) –
V
0.3 V
DD
(1)
V
OH
(3) EO: IO= –500 µA
V
DD
(3) –
V
Output high-level voltage 0.3 V
DD
(3)
V
OH
(4) XOUT IO= 1 µA
V
DD
(3) –
V
0.3 V
DD
(3)
V
OH
(5) S1 to S20: IO= 20 µA VDD(4) – 1 V
V
OH
(6) COM1, CM2, COM3, and COM4: IO= 100 µA VDD(4) – 1 V
V
OH
(7) VREF: IO= 1 mA VDD(3) – 1 V
V
OL
(1) PB: IO= –50 µA 0.3 VDD(1) 0.7 VDD(1) V
V
OL
(2) PC, PD, PG, and PH: IO= –1 mA 0.3 VDD(1) V
V
OL
(3) EO: IO= –500 µA 0.3 VDD(3) V
Output low-level voltage
V
OL
(4) XOUT: IO= –1 µA 0.3 VDD(3) V
V
OL
(5) S1 to S20: IO= –20 µA VDD(4)–2 V
V
OL
(6) COM1, COM2, COM3, and COM4: IO= –100 µA VDD(4)–2 V
V
OL
(7) PE: IO= 2 mA 0.6 VDD(1) V
V
OL
(8) AOUT: IO= 1 mA, AIN = 1.3 V: VDD(4) = 3 V 0.5 V
Output off leakage current
I
OFF
(1) PB, PC, PD, PG, PH, and E0 ports –3 3 µA
I
OFF
(2) AOUT and PE ports –100 100 nA
A/D converter error ADI0 and ADI1, V
DD
–1/2 +1/2 LSB
Internal clock frequency
fosc(1) FM, and PLLSTOP: V
DD
(3) = 2.1 V, Vcon = OPEN 300 600 900 kHz
fosc(2) AM 450 1200 kHz I
DD1
(1)
V
DD
(1) = 1.5 V, VDD(3) = 2.1 V, VDD(4) = 3.0 V:
1mA
F
IN
(2) 130 MHz, Ta = 25°C
I
DD2
(2)
V
DD
(1) = 1.5 V, VDD(3) = 2.1 V, VDD(4) = 3.0 V:
5mA
F
IN
(2) 130 MHz, Ta = 25°C
I
DD3
(3)
V
DD
(1) = 1.5 V, VDD(3) = 2.1 V, VDD(4) = 3.0 V:
1mA
F
IN
(2) 130 MHz, Ta = 25°C
I
DD1
(4)
V
DD
(1) = 1.5 V, VDD(3) = 2.1 V, VDD(4) = 3.0 V:
0.1 mA
Halt mode, Ta = 25°C *1
Current drain
I
DD2
(5)
V
DD
(1) = 1.5 V, VDD(3) = 2.1 V, VDD(4) = 3.0 V:
0.3 mA
Halt mode, Ta = 25°C *1
I
DD3
(6)
V
DD
(1) = 1.5 V, VDD(3) = 2.1 V, VDD(4) = 3.0 V:
0.1 mA
Halt mode, Ta = 25°C *1
I
DD1
(7)
V
DD
(1) = 1.5 V, VDD(3) = 2.1 V, VDD(4) = 3.0 V:
100 nA
With the oscillator stopped, Ta = 25°C *
I
DD2
(8)
V
DD
(1) = 1.5 V, VDD(3) = 2.1 V, VDD(4) = 3.0 V:
500 nA
With the oscillator stopped, Ta = 25°C *
I
DD3
(9)
V
DD
(1) = 1.5 V, VDD(3) = 2.1 V, VDD(4) = 3.0 V:
100 nA
With the oscillator stopped, Ta = 25°C *
Electrical Characteristics under allowable operating conditions
The halt mode current drain is due to 20 instructions being executed every 125 ms.
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