IC MCU 8BIT OTP/EPROM 28 PSOIC

ST62T65CM6

Manufacturer Part NumberST62T65CM6
DescriptionIC MCU 8BIT OTP/EPROM 28 PSOIC
ManufacturerSTMicroelectronics
SeriesST6
ST62T65CM6 datasheet
 


Specifications of ST62T65CM6

Core ProcessorST6Core Size8-Bit
Speed8MHzConnectivitySPI
PeripheralsLED, LVD, POR, WDTNumber Of I /o21
Program Memory Size3.8KB (3.8K x 8)Program Memory TypeOTP
Eeprom Size128 x 8Ram Size128 x 8
Voltage - Supply (vcc/vdd)3 V ~ 6 VData ConvertersA/D 13x8b
Oscillator TypeInternalOperating Temperature-40°C ~ 85°C
Package / Case28-SOIC (7.5mm Width)Controller Family/seriesST6
No. Of I/o's21Eeprom Memory Size128Byte
Ram Memory Size128ByteCpu Speed8MHz
No. Of Timers2Rohs CompliantYes
Processor SeriesST62T6xCoreST6
Data Bus Width8 bitData Ram Size128 B
Interface TypeSCIMaximum Clock Frequency8 MHz
Number Of Programmable I/os21Number Of Timers1
Operating Supply Voltage3 V to 6 VMaximum Operating Temperature+ 125 C
Mounting StyleSMD/SMTDevelopment Tools By SupplierST62GP-EMU2, ST62E2XC-EPB/110, ST62E6XC-EPB/US, STREALIZER-II
Minimum Operating Temperature- 40 COn-chip Adc8 bit
Lead Free Status / RoHS StatusLead free / RoHS CompliantOther names497-2103-5
1
2
3
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
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
Page 51
52
Page 52
53
Page 53
54
Page 54
55
Page 55
56
Page 56
57
Page 57
58
Page 58
59
Page 59
60
Page 60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
Page 52/84

Download datasheet (2Mb)Embed
PrevNext
ST6255C ST6265C ST6265B
A/D CONVERTER (Cont’d)
Since the ADC is on the same chip as the micro-
processor, the user should not switch heavily load-
ed output signals during conversion, if high preci-
sion is required. Such switching will affect the sup-
ply voltages used as analog references.
The accuracy of the conversion depends on the
quality of the power supplies (V
user must take special care to ensure a well regu-
lated reference voltage is present on the V
V
pins (power supply voltage variations must be
SS
less than 5V/ms). This implies, in particular, that a
suitable decoupling capacitor is used at the V
pin.
The converter resolution is given by::
V
V
DD
SS
--------------------------- -
256
The Input voltage (Ain) which is to be converted
must be constant for 1µs before conversion and
remain constant during conversion.
Conversion resolution can be improved if the pow-
er supply voltage (V
) to the microcontroller is
DD
lowered.
In order to optimise conversion resolution, the user
can configure the microcontroller in WAIT mode,
because this mode minimises noise disturbances
and power supply variations due to output switch-
ing. Nevertheless, the WAIT instruction should be
executed as soon as possible after the beginning
of the conversion, because execution of the WAIT
instruction may cause a small variation of the V
voltage. The negative effect of this variation is min-
imized at the beginning of the conversion when the
converter is less sensitive, rather than at the end
of conversion, when the less significant bits are
determined.
The best configuration, from an accuracy stand-
point, is WAIT mode with the Timer stopped. In-
deed, only the ADC peripheral and the oscillator
are then still working. The MCU must be woken up
from WAIT mode by the ADC interrupt at the end
of the conversion. It should be noted that waking
up the microcontroller could also be done using
the Timer interrupt, but in this case the Timer will
be working and the resulting noise could affect
conversion accuracy.
One extra feature is available in the ADC to get a
better accuracy. In fact, each ADC conversion has
to be followed by a WAIT instruction to minimize
52/84
the noise during the conversion. But the first con-
version step is performed before the execution of
the WAIT when most of clocks signals are still en-
abled . The key is to synchronize the ADC start
with the effective execution of the WAIT. This is
achieved by setting ADC SYNC option. This way,
ADC conversion starts in effective WAIT for maxi-
and V
). The
DD
SS
mum accuracy.
and
Note: With this extra option, it is mandatory to ex-
DD
ecute WAIT instruction just after ADC start instruc-
tion. Insertion of any extra instruction may cause
spurious interrupt request at ADC interrupt vector.
DD
A/D Converter Control Register (ADCR)
Address: 0D1h — Read/Write
7
EAI
EOC
Bit 7 = EAI: Enable A/D Interrupt. If this bit is set to
“1” the A/D interrupt is enabled, when EAI=0 the
interrupt is disabled.
Bit 6 = EOC: End of conversion. Read Only. This
read only bit indicates when a conversion has
been completed. This bit is automatically reset to
“0” when the STA bit is written. If the user is using
the interrupt option then this bit can be used as an
interrupt pending bit. Data in the data conversion
register are valid only when this bit is set to “1”.
Bit 5 = STA: Start of Conversion. Write Only. Writ-
ing a “1” to this bit will start a conversion on the se-
lected channel and automatically reset to “0” the
EOC bit. If the bit is set again when a conversion is
DD
in progress, the present conversion is stopped and
a new one will take place. This bit is write only, any
attempt to read it will show a logical zero.
Bit 4 = PDS: Power Down Selection. This bit acti-
vates the A/D converter if set to “1”. Writing a “0” to
this bit will put the ADC in power down mode (idle
mode).
Bit 3-0 = D3-D0. Not used
A/D Converter Data Register (ADR)
Address: 0D0h — Read only
7
D7
Bit 7-0 = D7-D0: 8 Bit A/D Conversion Result.
STA
PDS
D3
D2
D6
D5
D4
D3
D2
0
D1
D0
0
D1
D0