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HY11S14<br />
Hardware User’s Manual<br />
.<br />
© 2009-2012 HYCON Technology Corp.<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
Table of Contents<br />
1. IDE FRAME............................................................................................................................................... 4<br />
2. HY-IDE USB CONTROL BOARD............................................................................................................. 6<br />
2.1. Diagram................................................................................................................................................. 6<br />
2.2. Circuit Description ................................................................................................................................. 7<br />
3. HY-IDE ICE BOARD ................................................................................................................................. 8<br />
3.1. Diagram................................................................................................................................................. 8<br />
3.2. Circuit Description ............................................................................................................................... 10<br />
3.3. Circuit Diagram ................................................................................................................................... 12<br />
4. HY-IDE TARGET BOARD....................................................................................................................... 14<br />
.<br />
4.1. Diagram............................................................................................................................................... 14<br />
4.2. Circuit Description ............................................................................................................................... 16<br />
4.3. Circuit Diagram ................................................................................................................................... 24<br />
5. SIMPLE ERROR DETECTION ............................................................................................................... 26<br />
5.1. ICE cannot connect to software .......................................................................................................... 26<br />
5.2. Program Memory Loading Fail............................................................................................................ 29<br />
6. REVISION HISTORY .............................................................................................................................. 31<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page2
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
Attention:<br />
1. HYCON Technology Corp. reserves the right to change the content of this datasheet without further<br />
notice. For most up-to-date information, please constantly visit our website:<br />
http://www.hycontek.com .<br />
2. HYCON Technology Corp. is not responsible for problems caused by figures or application circuits<br />
narrated herein whose related industrial properties belong to third parties.<br />
3. Specifications of any HYCON Technology Corp. products detailed or contained herein stipulate the<br />
performance, characteristics, and functions of the specified products in the independent state. We<br />
does not guarantee of the performance, characteristics, and functions of the specified products as<br />
placed in the customer’s products or equipment. Constant and sufficient verification and evaluation<br />
is highly advised.<br />
4. Please note the operating conditions of input voltage, output voltage and load current and ensure<br />
the IC internal power consumption does not exceed that of package tolerance. HYCON Technology<br />
Corp. assumes no responsibility for equipment failures that resulted from using products at values<br />
that exceed, even momentarily, rated values listed in products specifications of HYCON products<br />
specified herein.<br />
5. Notwithstanding this product has built-in ESD protection circuit, please do not exert excessive static<br />
electricity to protection circuit.<br />
.<br />
6. Products specified or contained herein cannot be employed in applications which require extremely<br />
high levels of reliability, such as device or equipment affecting the human body, health/medical<br />
equipments, security systems, or any apparatus installed in aircrafts and other vehicles.<br />
7. Despite the fact that HYCON Technology Corp. endeavors to enhance product quality as well as<br />
reliability in every possible way, failure or malfunction of semiconductor products may happen.<br />
Hence, users are strongly recommended to comply with safety design including redundancy and<br />
fire-precaution equipments to prevent any accidents and fires that may follow.<br />
8. Use of the information described herein for other purposes and/or reproduction or copying without<br />
the permission of HYCON Technology Corp. is strictly prohibited.<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page3
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
1. IDE Frame<br />
HY-IDE (HYCON-Integrated Development Environment) is composed by USB Control<br />
Board, ICE Board and Target Board that can emulate HY11P Series products’ function and<br />
features. Through PC connection, HY-IDE can carry out emulation, debugging,<br />
program…etc. function. As illustrated in Figure 1.<br />
The actual connection way of HY-IDE boards connected to HY-IDE software can be<br />
referred to Figure 1- 1.<br />
The numbers of HY-IDE boards was listed as follows:<br />
Model No.<br />
Board<br />
DK02<br />
DK03<br />
Target Board A09001-1 A11022-1<br />
ICE Board A09001-2 A11022-2<br />
USB Control Board A09001-3 A11022-3<br />
The following statement can be referred when using development kit, HY11S14-DK02<br />
and HY11S14-DK03. The difference between DK02 and DK03 will be specified particularly.<br />
.<br />
USB<br />
PS2<br />
DK02<br />
Figure 1<br />
DK03<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page4
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
DK02<br />
Figure 1- 1<br />
DK03<br />
.<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page5
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
2. HY-IDE USB Control Board<br />
2.1. Diagram<br />
HY-IDE USB control board is the bridge that connecting PC and HY-IDE ICE Board.<br />
Users can emulate HY11P Series products’ function and implement programming OTP<br />
products in the engineering stage by the control board, as shown in Figure 2.<br />
.<br />
Figure 2<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page6
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
2.2. Circuit Description<br />
Below is the description of Figure 2 connector:<br />
J4 : Adapter 9V Input<br />
The internal is negative and the external is positive, providing programming power<br />
source (must be connected while OTP programming).<br />
U7 : USB Port and PC End Connector<br />
Download program for emulation debug function<br />
Download programming program for HY11P Series products<br />
J1 : HY-ICE Board Control Port<br />
PIN 1 ICESDO connects ICE_SDO of HY11S14<br />
PIN 2 ICESDI connects ICE_SDI of HY11S14<br />
PIN 3 ICESCS connects ICE_CS of HY11S14<br />
PIN 4 VDD connects ICE_VCC of HY11S14<br />
PIN 5 ICESCK connects ICE_SCK of HY11S14<br />
PIN 6 VSS connects ICE_VSS of HY11S14<br />
P6 : HY11P Series Programming Control Port<br />
PIN 1 VPP(6V) connects VPP of the IC<br />
PIN 2 ICECK connects PSCK of the IC<br />
PIN 3 ICESDI connects PSDI . of the IC<br />
PIN 4 ICESDO connects PSDO of the IC<br />
PIN 5 VDD(3V) connects VDD of the IC<br />
PIN 6 VSS connects VSS of the IC<br />
S1 : Program, IC Programming Button<br />
S2 : Blank Check, IC Blank Check Button<br />
D4 : Two color LED;<br />
Red LED:OTP programming, Blank Check…. execution error light<br />
Green LED:OTP programming, Blank Check…execution success light<br />
Green LED:USB or Adapter is powered on<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page7
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
3. HY-IDE ICE Board<br />
3.1. Diagram<br />
HY-IDE ICE Board is the chip board of HY11S14. Its main function is to carry out<br />
emulation of HY11P Series Products. This ICE chip can directly emulate HY11P1X<br />
Series, HY11P2X Series, HY11P3X Series, HY11P4X Series and HY11P5X Series. The<br />
diagram of HY-IDE ICE Board of DK02 is shown as Figure 3 and HY-IDE ICE Board of<br />
DK03 is shown as Figure 4.<br />
J1 1 2 3<br />
J2 1 2 3<br />
J2 J1<br />
11S14 1-2 1-2<br />
11PXX 2-3 2-3<br />
98100 102<br />
1<strong>04</strong><br />
106<br />
108<br />
110 112 114 116 118 120 122 124 126 128<br />
97 99<br />
98 100<br />
102<br />
1<strong>04</strong><br />
106<br />
108<br />
110<br />
112<br />
114<br />
116<br />
118<br />
120<br />
122<br />
124<br />
126<br />
128<br />
101<br />
103<br />
105<br />
107<br />
109<br />
111<br />
113<br />
115<br />
117<br />
119<br />
121<br />
123<br />
125<br />
127<br />
97<br />
99 101<br />
103<br />
105 107<br />
109 111 113 115 117 119 121 123 125 127<br />
.<br />
45 47 49 51 53 55 57 59 61 63<br />
45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63<br />
64<br />
46 48 50 52 54 56 58 60 62 64<br />
41 43<br />
41 43<br />
42 44<br />
42 44<br />
39<br />
39<br />
40<br />
40<br />
37<br />
37<br />
38<br />
38<br />
35<br />
35<br />
36<br />
36<br />
33<br />
33<br />
34<br />
34<br />
2<br />
1<br />
Power Select<br />
S1 Switch Remarks<br />
VIN ON VIN~3V<br />
VDD_bat ON VDD_bat~3V<br />
VDD_i ON VDD_i~3V<br />
Figure 3<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page8
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
1<br />
2<br />
U2<br />
U4<br />
SRAM<br />
U3<br />
SRAM<br />
97 99 101<br />
97 99<br />
98 100<br />
98100 102<br />
1<strong>04</strong> 106 108 110 112 114 116 118 120 122 124 126 128<br />
102 1<strong>04</strong> 106 108 110 112 114 116 118 120 122 124 126 128<br />
101 103 105 107 109 111 113 115 117 119 121 123 125 127<br />
103 105 107 109 111 113 115 117 119 121 123 125 127<br />
45 47 49 51 53 55 57 59 61 63<br />
45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63<br />
64<br />
46 48 50 52 54 56 58 60 62 64<br />
41 43<br />
41 43<br />
42 44<br />
42 44<br />
39<br />
39<br />
40<br />
40<br />
37<br />
37<br />
38<br />
38<br />
35<br />
35<br />
36<br />
36<br />
33<br />
33<br />
34<br />
34<br />
Power Select<br />
S1 Switch Remarks<br />
VIN ON VIN~3V<br />
VDD_bat ON VDD_bat~3V<br />
VDD_i ON VDD_i~3V<br />
VDD_bat<br />
VIN<br />
J5<br />
.<br />
VDD_i<br />
VDD_bat<br />
VIN<br />
Figure 4<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page9
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
3.2. Circuit Description<br />
Below is the description of Figure 3 connector:<br />
<br />
J4:Connects the J1 PS2 communication port of HY-IDE USB Control Board. PC<br />
gives commands to HY11S14 through Control Board. It can download program to<br />
SRAM6 and can perform single execution, Free RUN…etc. debugging functions.<br />
S1:ICE board power selection (voltage comes from the USB Control Board)<br />
VIN – when it switched to ON, it represents VIN~3V voltage.<br />
VDD_bat – when it switched to ON, it represents VDD_bat~3V voltage.<br />
VDD_i – when it switched to ON, it represents VDD_i~3V voltage.<br />
Setup Ways of Power Selection:<br />
ICE Board power can be supplied by PC through USB or from external power<br />
sources;<br />
When it is powered by USB, the switches of S1 VDD_bat and VDD_i , must be<br />
turned to ON.<br />
When it is powered via external power source, it must be connected though<br />
HY-IDE Target Board V1 and the switch of VDD_bat must be turned to ON.<br />
J5: Can set up whether to short VIN and VDD_bat<br />
J6: For DK03, CR1 must be shorted,<br />
U3, U4: SRAM.<br />
.<br />
J1, J2: Capacity selection of the emulation chip (For DK02)<br />
The ROM Size of HY11S14 is 16k Word (32K Byte). So, when HY11S14 is chosen,<br />
J1 PIN 1-2 and J2 PIN 1-2 must be shorted.<br />
When using HY11P Series products of which ROM Size is under 8K Word (16K<br />
Byte), J1 PIN 2-3 and J2 PIN 2-3 must be shorted.<br />
CR1, R1, C1 & C2: Connects external Crystal and other peripheral capacitors or<br />
resistors.<br />
C4: VDD power input regulated capacitor is recommended to keep in between<br />
1uF to 10uF<br />
C5: VLCD power output regulated capacitor is recommended to keep in between<br />
1uF to 4.7uF<br />
C6 and C7: Analog power regulated capacitor<br />
In order to enhance the operation performance of ADC, the regulated capacitor is<br />
suggested to locate as closer to the pin as possible.<br />
C6: VDDA capacitor 1uF ~ 10uF; C7: ACM capacitor 47nF ~ 100nF.<br />
C8 and C9 : ADC Input Filter Capacitor<br />
In order to enhance the operation performance of ADC, the filter capacitor is<br />
suggested to locate as closer to the pin as possible.<br />
C8 : ADC Input filter capacitor (AI0 – AI1) 0.1uF.<br />
C9 : ADC Reference filter capacitor (AI2 – AI3) 0.1uF.<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page10
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
RST Circuit:Is demonstrated as in Figure 5.<br />
Figure 5<br />
.<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page11
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page12<br />
3.3. Circuit Diagram<br />
The Circuit Diagram of DK02 can be referred to Figure 6, the Circuit Diagram of DK03<br />
can be referred to Figure 7.<br />
Figure 6<br />
Title<br />
Number Revision<br />
Size<br />
A4<br />
CR1<br />
4MHz<br />
_DA7<br />
_ADR0<br />
_CS<br />
_ADR14<br />
_ADR14<br />
_ADR12<br />
_ADR11<br />
_ADR11<br />
_ADR13<br />
_ADR13<br />
_ADR10<br />
_ADR10<br />
_ADR10<br />
_ADR9<br />
_ADR9<br />
_ADR9<br />
_ADR8<br />
_ADR8<br />
_ADR8<br />
_ADR7<br />
_ADR7<br />
_ADR6<br />
_ADR6<br />
_ADR5<br />
_ADR5<br />
_ADR4<br />
_ADR4<br />
_ADR3<br />
_ADR3<br />
_ADR2<br />
_ADR2<br />
_ADR1<br />
_ADR0<br />
_DA7<br />
_DA7<br />
_DA6<br />
_DA6<br />
_DA6<br />
_DA5<br />
_DA5<br />
_DA5<br />
_DA4<br />
_DA4<br />
_DA4<br />
_DA3<br />
_DA3<br />
_DA3<br />
_DA2<br />
_DA2<br />
_DA1<br />
_DA1<br />
_DA0<br />
_DA0<br />
_CSRAM_S<br />
_CSSBM<br />
_CSRAM<br />
_RD<br />
_RD<br />
_RD<br />
_WE<br />
_WE<br />
_WE<br />
_VSS_ram<br />
_VSS_ram<br />
VDD_bat<br />
VDD_bat<br />
_SBM-SEL<br />
_SBM-SEL<br />
_CS<br />
C1<br />
22pF<br />
C2<br />
22pF<br />
R2<br />
VSS_i<br />
VSS_i<br />
R1<br />
1M<br />
R3<br />
0<br />
_VSS_ram<br />
PT2.2<br />
PT2.3<br />
PT2.4<br />
PT2.5<br />
PT2.6<br />
PT2.7<br />
VDDA<br />
ACM<br />
OPO<br />
AI0<br />
AI1<br />
AI2<br />
AI3<br />
AI4<br />
AI5<br />
AI6<br />
AI7<br />
AI8<br />
AI9<br />
AI10<br />
VDD_i<br />
VLCD<br />
AI11<br />
AI12<br />
AI13<br />
AI14<br />
AI15<br />
C6 10uF<br />
C7<br />
100nF<br />
VSS_i<br />
COM 0<br />
COM 1<br />
COM 2<br />
COM 3<br />
SEG2<br />
SEG3<br />
SEG4<br />
SEG5<br />
SEG6<br />
SEG7<br />
SEG8<br />
SEG9<br />
SEG10<br />
SEG11<br />
SEG12<br />
SEG13<br />
SEG14<br />
SEG15<br />
SEG16<br />
SEG17<br />
SEG18<br />
SEG19<br />
SEG20<br />
SEG21<br />
SEG22<br />
SEG23<br />
SEG24<br />
SEG25<br />
SEG26<br />
SEG27<br />
SEG28<br />
SEG29<br />
SEG30<br />
SEG31<br />
SEG32<br />
SEG33<br />
SEG34<br />
SEG35<br />
SEG36<br />
SEG37<br />
SEG38<br />
SEG39<br />
SEG40<br />
SEG41<br />
C5<br />
4.7uF<br />
VSS_i<br />
PT2.0<br />
PT2.1<br />
PT3.0<br />
PT3.1<br />
PT3.3<br />
PT3.4<br />
PT3.5<br />
PT3.6<br />
PT3.7<br />
SBM Memory<br />
Program Memory<br />
A5<br />
5<br />
A6<br />
4<br />
A7<br />
3<br />
A8<br />
25<br />
A9<br />
24<br />
A10<br />
21<br />
A11<br />
23<br />
A12<br />
2<br />
A13<br />
26<br />
A14<br />
1<br />
I/O0<br />
11<br />
I/O1<br />
12<br />
I/O2<br />
13<br />
I/O3<br />
15<br />
I/O4<br />
16<br />
I/O5<br />
17<br />
I/O6<br />
18<br />
I/O7<br />
19<br />
CE<br />
20<br />
A0<br />
10<br />
OE<br />
22<br />
A1<br />
9<br />
A2<br />
8<br />
A3<br />
7<br />
A4<br />
6<br />
WE<br />
27<br />
GND<br />
14<br />
VCC<br />
28<br />
U3<br />
62256<br />
C11<br />
0.1uF<br />
1 2<br />
C10<br />
0.1uF C12<br />
0.1uF<br />
VDD_bat<br />
C14<br />
1uF<br />
_VSS_ram<br />
VDD_bat<br />
_VSS_ram<br />
8<br />
9<br />
10<br />
U2C<br />
7400<br />
1<br />
2<br />
3<br />
U2A<br />
7400<br />
5<br />
6<br />
4<br />
U2B<br />
7400<br />
14<br />
7<br />
11<br />
12<br />
13<br />
U2D<br />
7400<br />
_VSS_ram<br />
_VSS_ram<br />
_VSS_ram<br />
_ADR1<br />
HY11S14 ICE Board<br />
A09001-2 V02<br />
VDD_bat<br />
VDD_i<br />
C8<br />
0.1uF<br />
A5<br />
5<br />
A6<br />
4<br />
A7<br />
3<br />
A8<br />
25<br />
A9<br />
24<br />
A10<br />
21<br />
A11<br />
23<br />
A12<br />
2<br />
A13<br />
26<br />
A14<br />
1<br />
I/O0<br />
11<br />
I/O1<br />
12<br />
I/O2<br />
13<br />
I/O3<br />
15<br />
I/O4<br />
16<br />
I/O5<br />
17<br />
I/O6<br />
18<br />
I/O7<br />
19<br />
CE<br />
20<br />
A0<br />
10<br />
OE<br />
22<br />
A1<br />
9<br />
A2<br />
8<br />
A3<br />
7<br />
A4<br />
6<br />
WE<br />
27<br />
GND<br />
14<br />
VCC<br />
28<br />
U4<br />
62256<br />
_VSS_ram<br />
_VSS_ram<br />
_VSS_ram<br />
_VSS_ram<br />
VDD_i<br />
C4<br />
10uF<br />
C3<br />
0.1uF<br />
VSS_i<br />
VDD_bat<br />
1<br />
1<br />
VIN VIN<br />
VDD_bat<br />
VDD_i<br />
_ADR12<br />
_ADR7<br />
_ADR6<br />
_ADR5<br />
_ADR4<br />
_ADR3<br />
_ADR2<br />
_ADR1<br />
_ADR0<br />
_DA2<br />
_DA1<br />
_DA0<br />
_VSS_ram<br />
PT1.3<br />
PT1.4<br />
PT1.5<br />
PT1.6<br />
PT1.7<br />
PT1.0<br />
PT1.2<br />
R4<br />
100K<br />
VPP<br />
C13<br />
1nF<br />
VSS_i<br />
VDD_i<br />
C9<br />
0.1uF<br />
*. ICE Memory NET<br />
VDD_bat<br />
VDD_bat<br />
_SCS<br />
_SCK<br />
_SDO<br />
_SDI<br />
PT1.1<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
S<br />
J4<br />
PS2-6PIN<br />
_VCC_ram<br />
_VSS_ram<br />
_VSS_ram<br />
_SDI<br />
_SDO<br />
_SCK<br />
_SCS<br />
R7<br />
47K<br />
R6<br />
47K<br />
R5<br />
47K<br />
_VCC_ram<br />
_VCC_ram<br />
1<br />
2<br />
3<br />
6<br />
5<br />
4<br />
S1<br />
Power Sel<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
J3<br />
ICE Signal<br />
VDD_bat<br />
1<br />
2<br />
3<br />
J1<br />
SBM Sel<br />
1<br />
2<br />
3<br />
J2<br />
CS Sel<br />
PT3.2<br />
VPP/RST<br />
1<br />
PT1.0/INT0/CPAI6/PSCK<br />
2<br />
PT1.1/IN T1/CPAI7/SCE/PSD I<br />
3<br />
PT1.2/INT2/SDI/SVSIN<br />
4<br />
PT1.3/TST/INT3/RX<br />
5<br />
PT1.4/INT4/TX<br />
6<br />
PT1.5/INT5/SDO/PSDO<br />
7<br />
PT1.6/INT6/SCK<br />
8<br />
PT1.7/INT7/BZ<br />
9<br />
SEG29<br />
64<br />
SEG28<br />
65<br />
SEG27<br />
66<br />
VDD<br />
98<br />
PT2.0/XTO<br />
99<br />
PT2.1/XTI<br />
100<br />
HY11S14_LQFP128<br />
PT2.2/PFD/PWM0/CPAI0<br />
101<br />
PT2.3/CPAI1/PWM1/TMCKI<br />
102<br />
PT2.4/CCP0/CPAI2/PWM2<br />
103<br />
PT2.5/CCP1/CPAI3/PWM3<br />
1<strong>04</strong><br />
VDDA<br />
108<br />
ACM<br />
109<br />
AI0/PT4.0<br />
111<br />
ICE_ADR13<br />
49<br />
ICE_ADR14<br />
50<br />
NC<br />
18<br />
PT3.0<br />
10<br />
PT3.1<br />
11<br />
PT3.5<br />
15<br />
PT3.4<br />
14<br />
PT3.3<br />
13<br />
PT3.2<br />
12<br />
PT3.6<br />
16<br />
PT3.7<br />
17<br />
PT2.6/CPAI4/CPAO<br />
105<br />
PT2.7/CPAI5/CPAO<br />
106<br />
OPO<br />
110<br />
AI1/PT4.1<br />
112<br />
AI2/PT4.2<br />
113<br />
AI3/PT4.3<br />
114<br />
AI4/PT4.4<br />
115<br />
ICE_ADR10<br />
46<br />
ICE_ADR11<br />
47<br />
ICE_ADR12<br />
48<br />
ICE_ADR9<br />
45<br />
ICE_ADR6<br />
42<br />
ICE_ADR7<br />
43<br />
ICE_ADR8<br />
44<br />
AI5/PT4.5<br />
116<br />
AI6/PT4.6<br />
117<br />
AI7/PT4.7<br />
118<br />
ICE_DA5<br />
33<br />
ICE_DA6<br />
34<br />
ICE_DA7<br />
35<br />
ICE_ADR0<br />
36<br />
ICE_ADR1<br />
37<br />
ICE_ADR2<br />
38<br />
ICE_ADR3<br />
39<br />
ICE_ADR4<br />
40<br />
ICE_ADR5<br />
41<br />
ICE_V CC<br />
19<br />
ICE_V SS<br />
20<br />
ICE_SDI<br />
21<br />
ICE_SDO<br />
22<br />
ICE_SCK<br />
23<br />
ICE_CS<br />
24<br />
ICE_CS0<br />
25<br />
ICE_RD<br />
26<br />
ICE_WE<br />
27<br />
ICE_D A0<br />
28<br />
ICE_D A1<br />
29<br />
ICE_D A2<br />
30<br />
ICE_D A3<br />
31<br />
ICE_D A4<br />
32<br />
NC<br />
97<br />
NC<br />
107<br />
NC<br />
127<br />
SBM_SEL/ICE_ADR15<br />
51<br />
SEG41<br />
52<br />
SEG40<br />
53<br />
SEG39<br />
54<br />
SEG38<br />
55<br />
SEG37<br />
56<br />
SEG36<br />
57<br />
SEG35<br />
58<br />
SEG34<br />
59<br />
SEG33<br />
60<br />
SEG32<br />
61<br />
SEG31<br />
62<br />
SEG30<br />
63<br />
SEG26<br />
67<br />
SEG25<br />
68<br />
SEG24<br />
69<br />
SEG23<br />
70<br />
SEG22<br />
71<br />
SEG21<br />
72<br />
SEG20<br />
73<br />
SEG19<br />
74<br />
SEG18<br />
75<br />
SEG17<br />
76<br />
SEG16<br />
77<br />
SEG15<br />
78<br />
SEG14<br />
79<br />
SEG13<br />
80<br />
SEG12<br />
81<br />
SEG11<br />
82<br />
SEG10<br />
83<br />
SEG9<br />
84<br />
SEG8<br />
85<br />
SEG7<br />
86<br />
SEG6<br />
87<br />
SEG5<br />
88<br />
SEG4<br />
89<br />
SEG3<br />
90<br />
SEG2<br />
91<br />
SEG1/COM3<br />
92<br />
SEG0/COM2<br />
93<br />
COM 1<br />
94<br />
COM 0<br />
95<br />
VLCD<br />
96<br />
AI8/PT5.0<br />
119<br />
AI9/PT5.1<br />
120<br />
AI10/PT5.2<br />
121<br />
AI11/PT5.3<br />
122<br />
AI12/PT5.4<br />
123<br />
AI13/PT5.5<br />
124<br />
AI14/PT5.6<br />
125<br />
AI15/PT5.7<br />
126<br />
VSS<br />
128<br />
VIN<br />
129<br />
VIN<br />
130<br />
U1<br />
HY11S14_128<br />
被 動 元 件 近 IC<br />
VIN<br />
1<br />
2<br />
J5<br />
VDD_Bat<br />
VDD_bat<br />
VIN<br />
.
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
C1<br />
22pF<br />
C2<br />
VSS_i<br />
22pF<br />
被 動 元 件 近 IC<br />
VDD_i<br />
C3<br />
C4<br />
0. 1uF<br />
10uF VSS_i<br />
VSS_i<br />
J6<br />
VDD_i<br />
R2<br />
R1<br />
1M<br />
VSS_i<br />
CR1<br />
8MHz<br />
C6<br />
10uF<br />
C7<br />
100nF<br />
C8<br />
C9<br />
0.1uF<br />
0.1uF<br />
PT2.0<br />
PT2.1<br />
PT2.2<br />
PT2.3<br />
PT2.4<br />
PT2.5<br />
PT2.6<br />
PT2.7<br />
VDDA<br />
ACM<br />
OPO<br />
AI0<br />
AI1<br />
AI2<br />
AI3<br />
AI4<br />
AI5<br />
AI6<br />
AI7<br />
AI8<br />
AI9<br />
AI10<br />
AI11<br />
AI12<br />
AI13<br />
AI14<br />
AI15<br />
VSS_i<br />
_VSS_ram<br />
97<br />
98<br />
99<br />
100<br />
101<br />
102<br />
103<br />
1<strong>04</strong><br />
105<br />
106<br />
107<br />
108<br />
109<br />
110<br />
111<br />
112<br />
113<br />
114<br />
115<br />
116<br />
117<br />
118<br />
119<br />
120<br />
121<br />
122<br />
123<br />
124<br />
125<br />
126<br />
127<br />
128<br />
R3<br />
0<br />
ICE PIN<br />
J3<br />
ICE Signal<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
_VCC_ram<br />
R5<br />
47K<br />
2<br />
4<br />
6<br />
8<br />
10<br />
12<br />
1<br />
3<br />
5<br />
7<br />
9<br />
11<br />
VSS_i<br />
_VSS_ram<br />
R7<br />
R6 47K<br />
47K<br />
J4<br />
C13<br />
1nF<br />
C14<br />
1uF<br />
VDD_bat<br />
VDD_bat<br />
R4<br />
100K<br />
VDD_i<br />
VPP 1<br />
PT1.0 2<br />
PT1.1 3<br />
PT1.2 4<br />
PT1.3 5<br />
PT1.4 6<br />
PT1.5 7<br />
PT1.6 8<br />
PT1.7 9<br />
PT3.0 10<br />
PT3.1 11<br />
PT3.2 12<br />
PT3.3 13<br />
PT3.4 14<br />
PT3.5 15<br />
PT3.6 16<br />
PT3.7 17<br />
18<br />
19<br />
_V S S_ram 20<br />
_S D I 21<br />
_S D O 22<br />
_S CK 23<br />
_S CS 24<br />
_CS 25<br />
_RD 26<br />
_W E 27<br />
_DA0 28<br />
_DA1 29<br />
_DA2 30<br />
_DA3 31<br />
_DA4 32<br />
129<br />
130<br />
VIN<br />
HY11S14_128<br />
NC<br />
VDD<br />
PT2.0 /XTO<br />
PT2.1 /XTI<br />
PT2.2/PFD/PWM0/CPAI0<br />
PT2.3/CPAI1/PWM1/TMCKI<br />
PT2.4 /CCP0/CPAI2/PWM2<br />
PT2.5 /CCP1/CPAI3/PWM3<br />
PT2.6/CPAI4/CPAO<br />
PT2.7/CPAI5/CPAO<br />
NC<br />
VDDA<br />
ACM<br />
OPO<br />
AI0/PT4.0<br />
AI1/PT4.1<br />
AI2/PT4.2<br />
AI3/PT4.3<br />
AI4/PT4.4<br />
AI5/PT4.5<br />
AI6/PT4.6<br />
AI7/PT4.7<br />
AI8/PT5.0<br />
AI9/PT5.1<br />
AI10/PT5.2<br />
AI11/PT5.3<br />
AI12/PT5.4<br />
AI13/PT5.5<br />
AI14/PT5.6<br />
AI15/PT5.7<br />
NC<br />
VSS<br />
VPP/RST<br />
P T1. 0/I NT 0/CP AI 6/P SCK<br />
P T1. 1/I NT 1/CP AI 7/S CE /P SD I<br />
P T1. 2/I NT 2/S D I/S VS IN<br />
PT1.3/TST/INT3/RX<br />
P T1. 4/I NT 4/T X<br />
P T1. 5/I NT 5/S D O/PS DO<br />
P T1. 6/I NT 6/S CK<br />
P T1. 7/I NT 7/BZ<br />
PT3.0<br />
PT3.1<br />
PT3.2<br />
PT3.3<br />
PT3.4<br />
PT3.5<br />
PT3.6<br />
PT3.7<br />
NC<br />
ICE_VCC<br />
ICE_VS S<br />
ICE_SDI<br />
ICE_SDO<br />
ICE_SCK<br />
ICE_CS<br />
ICE_CS 0<br />
ICE_RD<br />
ICE_W E<br />
ICE_DA0<br />
ICE_DA1<br />
ICE_DA2<br />
ICE_DA3<br />
ICE_DA4<br />
VIN<br />
VIN<br />
SEG29<br />
SEG30<br />
SEG31<br />
SEG32<br />
SEG33<br />
SEG34<br />
SEG35<br />
SEG36<br />
SEG37<br />
SEG38<br />
SEG39<br />
SEG40<br />
SEG41<br />
SBM_SEL/ICE_ADR15<br />
ICE_ADR14<br />
ICE_ADR13<br />
ICE_ADR12<br />
ICE_ADR11<br />
ICE_ADR10<br />
ICE_ADR9<br />
ICE_ADR8<br />
ICE_ADR7<br />
ICE_ADR6<br />
ICE_ADR5<br />
ICE_ADR4<br />
ICE_ADR3<br />
ICE_ADR2<br />
ICE_ADR1<br />
ICE_ADR0<br />
ICE_ DA7<br />
ICE_ DA6<br />
ICE_ DA5<br />
64<br />
63<br />
62<br />
61<br />
60<br />
59<br />
58<br />
57<br />
56<br />
55<br />
54<br />
53<br />
52<br />
51<br />
50<br />
49<br />
48<br />
47<br />
46<br />
45<br />
44<br />
43<br />
42<br />
41<br />
40<br />
39<br />
38<br />
37<br />
36<br />
35<br />
34<br />
33<br />
_DA6<br />
_DA5<br />
_ADR0<br />
_DA7<br />
.<br />
HY11S14_LQFP128<br />
SEG41<br />
_SBM-SEL<br />
_ADR14<br />
_ADR13<br />
_ADR12<br />
_ADR11<br />
_ADR10<br />
_ADR9<br />
_ADR8<br />
_ADR7<br />
_ADR6<br />
_ADR5<br />
_ADR4<br />
_ADR3<br />
_ADR2<br />
_ADR1<br />
SEG29<br />
SEG30<br />
SEG31<br />
SEG32<br />
SEG33<br />
SEG34<br />
SEG35<br />
SEG36<br />
SEG37<br />
SEG38<br />
SEG39<br />
SEG40<br />
VLCD<br />
COM0<br />
COM1<br />
SEG0/COM2<br />
SEG1/COM3<br />
SEG2<br />
SEG3<br />
SEG4<br />
SEG5<br />
SEG6<br />
SEG7<br />
SEG8<br />
SEG9<br />
SEG10<br />
SEG11<br />
SEG12<br />
SEG13<br />
SEG14<br />
SEG15<br />
SEG16<br />
SEG17<br />
SEG18<br />
SEG19<br />
SEG20<br />
SEG21<br />
SEG22<br />
SEG23<br />
SEG24<br />
SEG25<br />
SEG26<br />
SEG27<br />
SEG28<br />
4.7uF<br />
U1<br />
96<br />
95<br />
94<br />
93<br />
92<br />
91<br />
90<br />
89<br />
88<br />
87<br />
86<br />
85<br />
84<br />
83<br />
82<br />
81<br />
80<br />
79<br />
78<br />
77<br />
76<br />
75<br />
74<br />
73<br />
72<br />
71<br />
70<br />
69<br />
68<br />
67<br />
66<br />
65<br />
VLCD<br />
C5<br />
COM0<br />
COM1<br />
COM2<br />
COM3<br />
SEG2<br />
SEG3<br />
SEG4<br />
SEG5<br />
SEG6<br />
SEG7<br />
SEG8<br />
SEG9<br />
SEG10<br />
SEG11<br />
SEG12<br />
SEG13<br />
SEG14<br />
SEG15<br />
SEG16<br />
SEG17<br />
SEG18<br />
SEG19<br />
SEG20<br />
SEG21<br />
SEG22<br />
SEG23<br />
SEG24<br />
SEG25<br />
SEG26<br />
SEG27<br />
SEG28<br />
VDD_bat _VSS_ram<br />
C10<br />
14 2 1 7<br />
VCC<br />
GND<br />
0. 1uF<br />
U2A<br />
1<br />
3<br />
2<br />
SN74HC00<br />
U2C<br />
9<br />
10<br />
SN74HC00<br />
U2B<br />
4<br />
6<br />
5<br />
SN74HC00<br />
U2D<br />
12<br />
13<br />
SN74HC00<br />
VDD_bat<br />
VDD_i<br />
J5<br />
2<br />
1<br />
VIN VIN<br />
VDD_Bat<br />
VDD_bat<br />
VDD_i<br />
1<br />
2<br />
3<br />
VIN<br />
VDD_bat<br />
S1<br />
Power Sel<br />
_SDO<br />
_SDI<br />
_SCS<br />
_VCC_ram<br />
_SCK<br />
_VSS_ram<br />
_VCC_ram<br />
_VSS_ram<br />
_SDO<br />
_SDI<br />
_SCS<br />
_SCK<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
J7<br />
PS2-6PIN<br />
8<br />
_CSRAM<br />
11<br />
6<br />
5<br />
4<br />
_VCC_ram<br />
S<br />
_VSS_ram<br />
Dt 25 N 2011 Sh t f<br />
A4<br />
A11022-2 V01<br />
Size<br />
Number Revisi<br />
HY11S14 ICE Board<br />
Ti tle<br />
62256<br />
SBM Memory<br />
_VSS_ram 1<br />
_VSS_ram 2<br />
_ADR7 3<br />
_ADR6 4<br />
_ADR5 5<br />
_ADR4 6<br />
_ADR3 7<br />
_ADR2 8<br />
_ADR1 9<br />
_ADR0 10<br />
_DA0 11<br />
_DA1 12<br />
_DA2 13<br />
_VSS_ram 14<br />
A14<br />
A12<br />
A7<br />
A6<br />
A5<br />
A4<br />
A3<br />
A2<br />
A1<br />
A0<br />
I/O0<br />
I/O1<br />
I/O2<br />
GND<br />
VCC<br />
WE<br />
A13<br />
A8<br />
A9<br />
A11<br />
OE<br />
A10<br />
CE<br />
I/O7<br />
I/O6<br />
I/O5<br />
I/O4<br />
I/O3<br />
28 VDD_bat<br />
27 _WE<br />
26 _VSS_ram<br />
25 _ADR8<br />
24 _ADR9<br />
23 _VSS_ram<br />
22 _RD<br />
21 _ADR10<br />
20 _CSSBM<br />
19 _DA7<br />
18 _DA6<br />
17 _DA5<br />
16 _DA4<br />
15 _DA3<br />
_VSS_ram<br />
C12<br />
0. 1uF<br />
62256<br />
U4<br />
VDD_bat<br />
Figure 7<br />
_ADR14 1<br />
_ADR12 2<br />
_ADR7 3<br />
_ADR6 4<br />
_ADR5 5<br />
_ADR4 6<br />
_ADR3 7<br />
_ADR2 8<br />
_ADR1 9<br />
_ADR0 10<br />
_DA0 11<br />
_DA1 12<br />
_DA2 13<br />
_VSS_ram 14<br />
A14<br />
A12<br />
A7<br />
A6<br />
A5<br />
A4<br />
A3<br />
A2<br />
A1<br />
A0<br />
I/O0<br />
I/O1<br />
I/O2<br />
GND<br />
28 VDD_bat<br />
VCC<br />
27 _WE<br />
WE<br />
26 _ADR13<br />
A13<br />
25 _ADR8<br />
A8<br />
24 _ADR9<br />
A9<br />
23 _ADR11<br />
A11<br />
22 _RD<br />
OE<br />
21 _ADR10<br />
A10<br />
20 _CSRAM<br />
CE<br />
19 _DA7<br />
I/O7<br />
18 _DA6<br />
I/O6<br />
17 _DA5<br />
I/O5<br />
16 _DA4<br />
I/O4<br />
15 _DA3<br />
I/O3<br />
Program Memory<br />
_VSS_ram<br />
C11<br />
0. 1uF<br />
VDD_bat<br />
U3<br />
*. ICE Memory NET<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page13
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
4. HY-IDE Target Board<br />
4.1. Diagram<br />
HY-IDE Target Board facilitates users to design circuit and to connect the circuit to the<br />
ICE Board. Target Board equips with basic circuit and components, according to circuit<br />
requirements, users can connect the circuit and the self-designed PCB board through I/O or<br />
Analog Ports. The relative peripherals include oscillator (CR1, CR2), EEPROM (U2),<br />
MAX232 (U3), RS232 connector (CON1), Regulator (U4), LED (D2~D9), Key Switch<br />
(S3~S8) and Buzzer (U5). Target Board of DK2 is illustrated as in Figure 8. Target Board of<br />
DK03 is illustrated as in Figure 9.<br />
JP6<br />
D2<br />
D3<br />
D4<br />
D5<br />
D6<br />
D7<br />
D8<br />
D9<br />
2 4 6<br />
1 3 5<br />
JP2<br />
2 4 6 8<br />
1 3 5 7<br />
JP1<br />
2 4<br />
1 3<br />
JP8<br />
2 4 6 8 10 12 14 16 18 20<br />
1 3 5 7 9 11 13 15 17 19<br />
8 10 12<br />
7 9 11<br />
JP3<br />
2 4 6 8 10 12 14 16 18 20 22 24 26 28<br />
1 3 5 7 9 11 13 15 17 19 21 23 25 27<br />
2 4 6 8<br />
JP1<br />
10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 ON S9<br />
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43<br />
EEPROM Sel<br />
1<br />
2<br />
3<br />
J3<br />
98100 102<br />
1<strong>04</strong><br />
106<br />
108<br />
110 112 114 116 118 120 122 124 126 128<br />
J6<br />
97 99<br />
98 100<br />
102<br />
1<strong>04</strong><br />
106<br />
108<br />
110<br />
112<br />
114<br />
116<br />
118<br />
120<br />
122<br />
124<br />
126<br />
128<br />
1<br />
101<br />
103<br />
105<br />
107<br />
109<br />
111<br />
113<br />
115<br />
117<br />
119<br />
121<br />
123<br />
125<br />
127<br />
2<br />
96 94 92 90 88 86 84 82 80 78 76 74 72 70 68 66<br />
96 94 92 90 88 86 84 82 80 78 76 74 72 70 68 66<br />
95 93 91 89 87 85 83 81 79 77 75 73 71 69 67 65<br />
95 93 91 89 87 85 83 81 79 77 75 73 71 69 67 65<br />
97<br />
99 101<br />
103<br />
105 107<br />
109 111 113 115 117 119 121 123 125 127<br />
3<br />
4<br />
5<br />
6<br />
ON<br />
CR1<br />
7<br />
8<br />
S1<br />
CR2<br />
9<br />
.<br />
JP12<br />
10<br />
2<br />
1<br />
11<br />
4<br />
3<br />
12<br />
6<br />
5<br />
13<br />
8<br />
7<br />
14<br />
15<br />
16<br />
17<br />
18<br />
18<br />
20<br />
21<br />
45 47 49 51 53 55 57 59 61 63<br />
45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63<br />
64<br />
46 48 50 52 54 56 58 60 62 64<br />
41 43<br />
41 43<br />
42 44<br />
42 44<br />
39<br />
39<br />
40<br />
40<br />
37<br />
37<br />
38<br />
38<br />
35<br />
35<br />
36<br />
36<br />
33<br />
33<br />
34<br />
34<br />
Select<br />
WP<br />
EXT<br />
3V<br />
Current<br />
U5<br />
BZ<br />
3<br />
2<br />
1<br />
J2<br />
2<br />
1 J1<br />
S2<br />
24C02<br />
U2<br />
VBAT<br />
JP4 1<br />
V1<br />
2<br />
1<br />
JP5 1<br />
VSSBAT<br />
U4<br />
GS2612<br />
VDD<br />
SDI<br />
SCK<br />
SDO<br />
CS<br />
VSS<br />
VPP<br />
PT1.0<br />
PT1.1<br />
PT1.5<br />
VDD<br />
VSS<br />
2 J9<br />
1<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
CON1<br />
SPI<br />
J7<br />
6 5 4 3 2 1<br />
OTP<br />
J8<br />
29<br />
31<br />
33<br />
35<br />
37<br />
39<br />
30<br />
32<br />
34<br />
36<br />
38<br />
40<br />
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31VIN<br />
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31VIN<br />
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 VDDBAT<br />
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 VDDBAT<br />
J13<br />
POWER<br />
U3<br />
J5<br />
S3_RST S4_PT1.0 S5_PT1.1 S6 S7 S8 1<br />
ON S10<br />
2 4 6 8 10 12 RXD<br />
2<br />
JP9<br />
1 3 5 7 9 11<br />
3<br />
TXD<br />
Rs232 Sel<br />
1<br />
2<br />
MAX 232<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
Figure 8<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page14
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
JP6<br />
J16<br />
D2<br />
D3<br />
D4<br />
D5<br />
D6<br />
D7<br />
D8<br />
D9<br />
2 4 6<br />
1 3 5<br />
JP2<br />
JP8<br />
8 10 12<br />
7 9 11<br />
JP3<br />
2 4 6 8<br />
JP1<br />
10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 ON S9<br />
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43<br />
EEPROM Sel<br />
1<br />
2<br />
3<br />
J3<br />
J6<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
96 94 92 90 88 86 84 82 80 78 76 74 72 70 68 66<br />
96 94 92 90 88 86 84 82 80 78 76 74 72 70 68 66<br />
95 93 91 89 87 85 83 81 79 77 75 73 71 69 67 65<br />
95 93 91 89 87 85 83 81 79 77 75 73 71 69 67 65<br />
ON<br />
CR1<br />
S1<br />
CR2<br />
10<br />
11<br />
12<br />
13<br />
14<br />
15<br />
16<br />
17<br />
18<br />
18<br />
20<br />
21<br />
EXT<br />
3V<br />
U5<br />
U2<br />
VBAT<br />
JP4<br />
1<br />
3<br />
2<br />
2<br />
V1<br />
1<br />
1<br />
J2<br />
S2<br />
2<br />
JP5 1<br />
1 J1 VSSBAT<br />
U4<br />
2 J9<br />
1<br />
VDD<br />
SDI<br />
SCK<br />
SDO<br />
CS<br />
VSS<br />
VPP<br />
PT1.0<br />
PT1.1<br />
PT1.5<br />
VDD<br />
VSS<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
J7<br />
J8<br />
JP1<br />
BZ<br />
JP12<br />
2<br />
1<br />
4<br />
3<br />
6<br />
5<br />
8<br />
7<br />
10<br />
9<br />
12<br />
11<br />
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31VIN<br />
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31VIN<br />
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 VDDBAT<br />
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 VDDBAT<br />
.<br />
J5<br />
J13<br />
POWER<br />
ON S10<br />
RXD<br />
TXD<br />
Rs232 Sel<br />
1<br />
2<br />
MAX 232<br />
S3_RST S4_PT1.0<br />
S5_PT1.1<br />
S6<br />
S7<br />
S8<br />
1<br />
2<br />
JP9<br />
3<br />
2<br />
1<br />
4<br />
3<br />
6<br />
5<br />
8<br />
7<br />
10<br />
9<br />
12<br />
11<br />
Figure 9<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page15
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
4.2. Circuit Description<br />
Power System:<br />
ICE power system can be powered by 3V regulated by HY-IDE USB Control Board<br />
or via external power input (external input power cannot exceed 3.6V that defined<br />
in HY11P series datasheets). When performing emulation on ICE, it can be<br />
powered by connecting U7 of HY-IDE USB Control Board via USB wire to PC end.<br />
USB power and external power is described as follows:<br />
• USB Power:<br />
When the system is powered by USB, the VDD_bat and VDD_i options of S1<br />
switch of HY-IDE ICE Board must be turned to ON. Then it can be powered by the<br />
USB via regulated 3V of the Regulator.<br />
When measuring IC current consumption, the option of VIN and VDD_bat<br />
must be switched to ON, supplying 3V power from regulator via USB and the<br />
current consumption is measured by J1 of the Target Board.<br />
• External Power:<br />
When using external power, users must notice that the VIN, VDD_i options of<br />
the HY-IDE ICE Board S1 switch must be switched to OFF status.<br />
The external power can be inputted via VBAT positive end of JP4 of HY-IDE<br />
Target Board, the negative end is . inputted by VSSBAT. S2 is the power on/off<br />
switch control.<br />
J2: Power selection (choose whether the whole system power passes<br />
through Regulator (U4))<br />
J2 PIN 1-2 short represents when VBAT external power input to U4, the<br />
voltage is regulated to 3V output, supplying VDD_i for the whole system<br />
(the output voltage is changeable through modifying R8, R14 and R15.<br />
R8<br />
R14<br />
R15<br />
The equation is: VOUT 1.240V<br />
(1 ) ).<br />
J2 PIN 2-3 short represents VBAT power is directly inputted to VDD_i.<br />
(Please note that the power should not exceed the specification of 3.6V)<br />
J1: can bridge current meter to test the whole VDD_i current<br />
consumption. It must be short circuit when it is not connected to the current<br />
meter, as shown in Figure 10.<br />
© 2009-2012 HYCON Technology Corp<br />
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APD-HYIDE005-V<strong>04</strong>_EN<br />
page16
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
VDD_i<br />
J1<br />
Current test<br />
1<br />
2<br />
VDD_bat<br />
J2<br />
3<br />
2<br />
1<br />
EXT<br />
3V<br />
VDD Sel<br />
C6<br />
0.1uF<br />
VSS_i<br />
C7<br />
10uF<br />
R8<br />
100K<br />
D1<br />
1N4001<br />
*. POWER NET<br />
S2<br />
5<br />
ON1<br />
3<br />
COM1<br />
1<br />
OFF1<br />
6<br />
ON2<br />
4<br />
COM2<br />
2<br />
OFF2<br />
JP4<br />
VBAT<br />
VIN<br />
JP5<br />
VSSBAT<br />
電 流 錶<br />
C21<br />
10uF<br />
R14<br />
42.2K<br />
R15<br />
100K<br />
1<br />
2<br />
3<br />
4<br />
EN<br />
IN<br />
OUT<br />
ADJ<br />
U4<br />
GND<br />
GND<br />
GND<br />
GND<br />
GS2612<br />
8<br />
7<br />
6<br />
5<br />
VSS_i<br />
VSS_i<br />
Figure 10<br />
J7:SPI communication port, as shown in<br />
Figure 11.<br />
PIN1 VDD<br />
PIN2 PT1.2(SDI)<br />
PIN3 PT1.6(SCK)<br />
PIN4 PT1.5(SDO)<br />
PIN5 PT1.1(CS)<br />
PIN6 VSS<br />
.<br />
Figure 11<br />
J8 : OTP programming port<br />
When product programming is implemented, HY-IDE ICE Board must be<br />
disconnected and the to be programmed chip must be connected. Through<br />
connecting J8 pin of HY-IDE Target Board to the J5 pin of HY-IDE USB<br />
Control Board, the programming function of HY-IDE Control Board can then<br />
program HY11P series chip, as shown in<br />
Figure 12.<br />
PIN 1 VPP (PIN 1)<br />
PIN 2 PT1.0 (PIN 2)<br />
PIN 3 PT1.1 (PIN 3)<br />
PIN 4 PT1.5 (PIN 7)<br />
PIN 5 VDD (PIN 98)<br />
PIN 6 VSS (PIN 128)<br />
Figure 12<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page17
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
CON1: UART communication port (RS232); in common use for 9-PIN<br />
connector, as illustrated in Figure 13.<br />
J13: is the power input JUMP for U3 MAX232. If short, it is connected with J1<br />
VDD_bat power. MAX232 is a signal voltage conversion IC, it can convert I/O<br />
power signal to standard RS232 potential signal.<br />
S10: is the connecting pin switch of RS232. RXD means connecting to PT1.3,<br />
TXD means connecting to PT1.4<br />
.<br />
Figure 13<br />
J9: Buzzer JUMP that connects to PT1.7 signal, as shown in Figure 14.<br />
Figure 14<br />
U2: EEPROM 24C02, as shown in Figure 15.<br />
S9: When using EEPROM 24C02 to save the calibration parameters, PIN 1-2<br />
of S9 must be started.<br />
J3: Short PIN 1-2 when it is prohibit writing 24C02.<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page18
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
Figure 15<br />
J6, JP11: LCD pin, as shown in Figure 16.<br />
.<br />
Figure 16<br />
The LCD panel on HY-IDE Target Board is HYCON Technology’s own<br />
mold specification, the panel symbol and pin definition is shown as Figure 17<br />
and Figure 18. Detailed panel specification is:<br />
Operation Voltage:3.0V<br />
Visible angle:60<br />
Operation Frequency:60Hz<br />
Bias:1/3 bias<br />
Waveform:1/4 duty<br />
Pin:90 degree<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page19
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
SEG1 SEG2 SEG3 SEG4 SEG5 SEG6 SEG7 SEG8 SEG9 SEG10 SEG11 SEG12 SEG13 SEG14 SEG15 SEG16 SEG17<br />
COM1 1A 1E 2A 2E 3A 3E 4A 4E 5A 5E 6A 6E S1 S5 S10 S9 S18<br />
COM2 1B 1F 2B 2F 3B 3F 4B 4F 5B 5F 6B 6F S2 S6 S11 S14 S19<br />
COM3 1C 1G 2C 2G 3C 3G 4C 4G 5C 5G 6C 6G S3 S7 S12 S15 S20<br />
COM4 1D 1H 2D 2H 3D 3H 4D 4H 5D 5H 6D S17 S4 S8 S13 S16 S21<br />
Figure 17<br />
70mm<br />
TARE<br />
ZERO<br />
m<br />
K<br />
M<br />
A<br />
V<br />
g<br />
27mm<br />
17.78mm<br />
8.89mm<br />
1 21<br />
0.812mm<br />
.<br />
2.54mm<br />
PIN 1 2 3 4 5 6 7 8 9 10 11<br />
I/O COM1 COM2 COM3 COM4 SEG1 SEG2 SEG3 SEG4 SEG5 SEG6 SEG7<br />
PIN 12 13 14 15 16 17 18 19 20 21<br />
I/O SEG8 SEG9 SEG10 SEG11 SEG12 SEG13 SEG14 SEG15 SEG16 SEG17<br />
Figure 18<br />
CR1, R1, C1 and C2: Connecting external crystal oscillation circuit, as<br />
shown Figure 19.<br />
HY-IDE Target Board is connected to CR1-4MHZ and CR2-32768Hz<br />
oscillator.<br />
S1: Control PT2.0 pin and connect to CR1 or CR2 device; their switches<br />
cannot be started at the same time.<br />
PIN1 ON, represents connecting to 4MHZ oscillation circuit<br />
PIN2 ON, represents connecting to 32768HZ oscillation circuit<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page20
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
Figure 19<br />
JP9, JP12: PT1, PT3 Port of DK02 is shown as Figure 20. PT1, PT3 Port<br />
of DK03 is shown as Figure 21.<br />
S4~S8: button, S3-RST, S4-PT1.0, S5-PT1.1<br />
J5: is the expandable pin for S6, S7, and S8 button<br />
.<br />
Figure 20<br />
VSS_i<br />
S4<br />
PT1. 0<br />
S5 PT1. 1<br />
PT1. 1<br />
C24<br />
VDD_i<br />
VSS_i<br />
0.1uF<br />
VDD_i<br />
JP9<br />
VDD_i<br />
VDD_i<br />
PT1. 0 PT1.0<br />
1 2<br />
PT1. 1 PT1.1<br />
PT1. 2 PT1.2<br />
3 4<br />
PT1. 3 PT1.3<br />
PT1. 4 PT1.4<br />
5 6<br />
PT1. 5 PT1.5<br />
PT1. 6 PT1.6<br />
7 8<br />
PT1. 7 PT1.7<br />
VSS_ i<br />
9 10<br />
11 12<br />
VSS_i<br />
VDD_i<br />
VSS_i<br />
I/O(PT1)<br />
JP12<br />
VSS_i<br />
VDD_i<br />
1 2<br />
PT3. 0 PT3.0<br />
PT3. 1 PT3.1<br />
3 4<br />
PT3. 2 PT3.2<br />
PT3. 3 PT3.3<br />
5 6<br />
PT3. 4 PT3.4<br />
PT3. 5 PT3.5<br />
7 8<br />
PT3. 6 PT3.6<br />
PT3. 7 PT3.7<br />
9 10<br />
11 12<br />
I/O(PT3)<br />
VSS_i<br />
S6<br />
S7<br />
S8<br />
VSS_i<br />
J7<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
SPI<br />
*. PT1,PT3 I/O NET<br />
VDD_i<br />
PT1.2 SDI(PT1.2)<br />
PT1.6 SCK(PT1.6 )<br />
PT1.5 SDO(PT1.5 )<br />
PT1.1 CS(PT1.1)<br />
VSS_i<br />
J5<br />
1<br />
2<br />
3<br />
Key<br />
Figure 21<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page21
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
JP8: PT2 Port is shown as Figure 22.<br />
D2~D9: is the default pin for PT2.0~PT2.7 LED. Using different PT2 pin, JP8<br />
must be shorted.<br />
Figure 22<br />
D10: Is small package, SOT-23, Signal diode, as shown in Figure 23.<br />
J10: Pump control signal<br />
J12: Connecting JUMP of PT2.2 pin. PFD frequency output as PUMP voltage<br />
control.<br />
J11: Pump voltage output<br />
.<br />
Figure 23<br />
Analog Port: For DK02, as shown in Figure 24. For DK03, as shown in<br />
Figure 25.<br />
JP3: Analog port, providing external sensor input signal connection.<br />
Other ports are all expandable analog signal input; they can be designed<br />
according to user’s application.<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page22
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
Figure 24<br />
.<br />
Figure 25<br />
C10~C15: Filter capacitor, shown as Figure 26<br />
. This filter capacitor provides ADC input signal source or it can filter<br />
voltage reference source<br />
Figure 26<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page23
1<br />
2<br />
3<br />
4<br />
8<br />
7<br />
6<br />
5<br />
1<br />
3<br />
5<br />
7<br />
2<br />
4<br />
6<br />
8<br />
2<br />
1<br />
3<br />
2<br />
1<br />
2<br />
3<br />
4<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
1<br />
2<br />
3<br />
4<br />
1<br />
2<br />
3<br />
4<br />
5<br />
4<br />
6<br />
7<br />
8<br />
9<br />
8<br />
7<br />
6<br />
5<br />
6<br />
2<br />
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
4.3. Circuit Diagram<br />
The Circuit Diagram of DK02 can be referred to Figure 27, the Circuit Diagram of<br />
DK03 can be referred to Figure 28.<br />
RP<br />
470<br />
1<br />
VSS_i<br />
VSS_i<br />
24C02<br />
NC<br />
NC<br />
NC<br />
VSS<br />
U2<br />
VSS_i<br />
VSS_i<br />
R3<br />
10k<br />
R2<br />
10k<br />
R1<br />
10k<br />
VDDA<br />
JP1<br />
1<br />
3<br />
ADREF<br />
OPNVS<br />
OPPVS<br />
C8<br />
0.1uF<br />
VCC<br />
WP<br />
SCL<br />
SDA<br />
PT20<br />
PT21<br />
D2<br />
PT22<br />
D3<br />
9<br />
8<br />
7<br />
6<br />
5<br />
4<br />
3<br />
2<br />
PT23<br />
D4<br />
PT24<br />
D5<br />
PT25<br />
D6<br />
PT26<br />
D7<br />
PT27<br />
D8<br />
D9<br />
EEPROM Sel<br />
IIC_SDA<br />
IIC_SCL<br />
1<br />
2<br />
4 SCL<br />
3 SDA<br />
S9<br />
VSS_i WP select<br />
1<br />
1<br />
2<br />
2<br />
3<br />
3<br />
VDD_bat<br />
J3<br />
VDD_bat<br />
*. EEPROM NET<br />
OPNET<br />
1 2<br />
OPNVS<br />
3 4<br />
OPNIN<br />
5 6<br />
OPPVS<br />
7 8<br />
OPPIN<br />
9 10<br />
OPPGND<br />
11 12<br />
OP0O_1<br />
JP6<br />
RES1<br />
RES1<br />
R10<br />
R12<br />
RES1<br />
RES1<br />
R9<br />
OPPIN OPNIN<br />
R11<br />
CAP<br />
2<br />
4<br />
AI2<br />
AI3<br />
AI2<br />
AI3<br />
C1<br />
ADINPUT<br />
JP2<br />
VDDA<br />
AI0<br />
AI1<br />
VSS_i<br />
PT2.0_1<br />
VDD_i I/O (PT2)<br />
PT2.1_1<br />
PT2.4_1<br />
PT2.3_1<br />
PT2.2_1<br />
PT2.5_1<br />
1 2<br />
3 4<br />
5 6<br />
7 8<br />
9 10<br />
11 12<br />
13 14<br />
15 16<br />
17 18<br />
19 20<br />
VSS_i JP8<br />
PT2.6_1<br />
PT2.7_1<br />
PT2.2<br />
PT2.3<br />
IIC_SCL<br />
IIC_SDA<br />
R4<br />
10K<br />
R5<br />
10K<br />
VDD_bat<br />
J4<br />
3<br />
2<br />
1<br />
OP0O_1<br />
OPNVS C9 27nF<br />
OPNIN<br />
OPPVS<br />
ACM<br />
VSS_i<br />
OPPIN<br />
OPPGND<br />
OPPGND<br />
R13<br />
135<br />
OPO<br />
VDDA<br />
AI0<br />
AI1<br />
VSS_i<br />
VDD_i<br />
VSS_i<br />
VSS VSS_i<br />
PT2.7 PT2.7<br />
PT2.6 PT2.6<br />
PT2.5 PT2.5<br />
PT2.4 PT2.4<br />
PT2.3 PT2.3<br />
PT2.2 PT2.2 VDD_i<br />
PT2.1 PT2.1<br />
PT2.0 PT2.0<br />
VDD<br />
C22<br />
0.1uF<br />
*. PT2 I/O NET<br />
J12<br />
PFD Sel<br />
2<br />
1<br />
VSS_i<br />
4.7uF<br />
PT2.2<br />
1<br />
A<br />
C25<br />
BAV99<br />
C26<br />
0.1uF<br />
K/A K<br />
10K<br />
CE<br />
Q1<br />
B<br />
2N3906<br />
D10<br />
R18<br />
1<br />
1<br />
3<br />
J11<br />
PUMP Output<br />
J10<br />
Pump Control<br />
R19 R20<br />
PUMP Circuit<br />
VIN<br />
VSS_i Analog Port VSS_i<br />
C10~C15 IC<br />
Analog Net C10~C15 IC<br />
VDDA<br />
ACM<br />
OPO<br />
AI0<br />
AI1<br />
AI2<br />
AI3<br />
AI4<br />
AI5<br />
AI6<br />
AI7<br />
AI8<br />
AI9<br />
AI10<br />
AI11<br />
AI12<br />
AI13<br />
AI14<br />
AI15<br />
JP3<br />
VDDA<br />
ACM<br />
OPO<br />
AI0<br />
AI1<br />
AI2<br />
AI3<br />
AI4<br />
AI5<br />
AI6<br />
AI7<br />
AI8<br />
AI9<br />
AI10<br />
AI11<br />
AI12<br />
AI13<br />
AI14<br />
AI15<br />
VSS_i<br />
VDDA<br />
1 2<br />
ACM<br />
3 4<br />
OPO<br />
5 6<br />
AI0<br />
7 8<br />
AI1<br />
9 10<br />
AI2<br />
11 12<br />
AI3<br />
13 14<br />
AI4<br />
15 16<br />
AI5<br />
17 18<br />
AI6<br />
19 20<br />
AI7<br />
21 22<br />
AI8<br />
23 24<br />
AI9<br />
25 26<br />
AI10<br />
27 28<br />
AI11<br />
29 30<br />
AI12<br />
31 32<br />
AI13<br />
33 34<br />
AI14<br />
35 36<br />
AI15<br />
37 38<br />
39 40<br />
AI6<br />
0.1uF<br />
C10<br />
AI5<br />
VSS_i<br />
22pF<br />
C3<br />
1M<br />
22pF<br />
C5<br />
4MHz<br />
R7<br />
CR1<br />
22pF<br />
VSS_i<br />
R6<br />
CR2<br />
32768<br />
C4 10M<br />
*. Analog NET<br />
C2 OSC Sel<br />
22pF<br />
*. 框 內 電 路 靠 近 JP3<br />
*. JP3 靠 近 晶 片<br />
1<br />
2<br />
S1<br />
I/O(PT3)<br />
SPI VSS_i<br />
JP12<br />
PT3.0 PT3.0<br />
PT3.1 PT3.1<br />
PT3.2 PT3.2<br />
1 2<br />
PT3.3 PT3.3<br />
PT3.4 PT3.4<br />
3 4<br />
PT3.5 PT3.5<br />
PT3.6 PT3.6<br />
5 6<br />
PT3.7 PT3.7<br />
7 8<br />
VSS_i PT1.1<br />
1<br />
PT1.2 SDI(PT1.2)<br />
2<br />
PT1.6 SCK(PT1.6)<br />
3<br />
PT1.5 SDO(PT1.5)<br />
4<br />
PT1.1 CS(PT1.1)<br />
5<br />
6<br />
VSS_i<br />
I/O(PT1)<br />
VSS_i<br />
VSS_i<br />
J7<br />
VDD_i<br />
S5 PT1.1<br />
S4<br />
0.1uF<br />
VDD_i<br />
JP9<br />
VDD_i<br />
VDD_i<br />
PT1.0 PT1.0<br />
1 2<br />
PT1.1 PT1.1<br />
PT1.2 PT1.2<br />
3 4<br />
PT1.3 PT1.3<br />
PT1.4 PT1.4<br />
5 6<br />
PT1.5 PT1.5<br />
PT1.6 PT1.6<br />
7 8<br />
PT1.7 PT1.7<br />
VSS_i<br />
9 10<br />
11 12<br />
Key<br />
S8<br />
PT1.0<br />
S7<br />
1<br />
2<br />
3<br />
J5<br />
S6<br />
S6: PT1.3<br />
VDD_i VSS_i<br />
C24<br />
*. PT1,PT3 I/O NET<br />
U5<br />
BUZZER<br />
VSS_i<br />
J8<br />
Program<br />
BZ<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
VSS_i RST<br />
C23<br />
10nF<br />
2<br />
1<br />
VSS_i<br />
S3<br />
VSS_i<br />
J9<br />
R16<br />
100K<br />
VPP 1<br />
PT1.0 2<br />
PT1.1 3<br />
PT1.2 4<br />
PT1.3 5<br />
PT1.4 6<br />
PT1.5 7<br />
PT1.6 8<br />
PT1.7 9<br />
PT3.0 10<br />
PT3.1 11<br />
PT3.2 12<br />
PT3.3 13<br />
PT3.4 14<br />
PT3.5 15<br />
PT3.6 16<br />
PT3.7 17<br />
18<br />
19<br />
_VSS_ram 20<br />
_SDI 21<br />
_SDO 22<br />
_SCK 23<br />
ICECS 24<br />
_CS 25<br />
_RD 26<br />
_WE 27<br />
_DA0 28<br />
_DA1 29<br />
_DA2 30<br />
_DA3 31<br />
_DA4 32<br />
129<br />
130<br />
VDD_i<br />
VIN<br />
.<br />
VDD_i<br />
HY11S14<br />
VSS_i<br />
127<br />
128<br />
NC<br />
VDD<br />
PT2.0/XTO<br />
PT2.1/XTI<br />
PT2.2/PFD/PWM0/CPAI0<br />
PT2.3/CPAI1/PWM1/TMCKI<br />
PT2.4/CCP0/CPAI2/PWM2<br />
PT2.5/CCP1/CPAI3/PWM3<br />
PT2.6/CPAI4/CPAO<br />
PT2.7/CPAI5/CPAO<br />
NC<br />
VDDA<br />
ACM<br />
OPO<br />
AI0/PT4.0<br />
AI1/PT4.1<br />
AI2/PT4.2<br />
AI3/PT4.3<br />
AI4/PT4.4<br />
AI5/PT4.5<br />
AI6/PT4.6<br />
AI7/PT4.7<br />
AI8/PT5.0<br />
AI9/PT5.1<br />
AI10/PT5.2<br />
AI11/PT5.3<br />
AI12/PT5.4<br />
AI13/PT5.5<br />
AI14/PT5.6<br />
AI15/PT5.7<br />
NC<br />
VSS<br />
VPP/RST<br />
PT1.0/INT0/CPAI6/PSCK<br />
PT1.1/INT1/CPAI7/SCE/PSDI<br />
PT1.2/INT2/SDI/SVSIN<br />
PT1.3/TST/INT3/RX<br />
PT1.4/INT4/TX<br />
PT1.5/INT5/SDO/PSDO<br />
PT1.6/INT6/SCK<br />
PT1.7/INT7/BZ<br />
PT3.0<br />
PT3.1<br />
PT3.2<br />
PT3.3<br />
PT3.4<br />
PT3.5<br />
PT3.6<br />
PT3.7<br />
NC<br />
ICE_V CC<br />
ICE_V SS<br />
ICE_SDI<br />
ICE_SDO<br />
ICE_SCK<br />
ICE_CS<br />
ICE_CS0<br />
ICE_RD<br />
ICE_W E<br />
ICE_D A0<br />
ICE_D A1<br />
ICE_D A2<br />
ICE_D A3<br />
ICE_D A4<br />
VIN<br />
VIN<br />
97<br />
98<br />
PT2.0 99<br />
PT2.1 100<br />
PT2.2 101<br />
PT2.3 102<br />
PT2.4 103<br />
PT2.5 1<strong>04</strong><br />
PT2.6 105<br />
PT2.7 106<br />
107<br />
VDDA 108<br />
ACM 109<br />
OPO 110<br />
C11<br />
AI0 111<br />
0.1uF AI1 112<br />
C12<br />
AI2 113<br />
0.1uF AI3 114<br />
C13<br />
AI4 115<br />
0.1uF AI5 116<br />
C14<br />
AI6 117<br />
0.1uF AI7 118<br />
C15<br />
AI8 119<br />
0.1uF AI9 120<br />
AI10 121<br />
AI11 122<br />
AI12 123<br />
AI13 124<br />
AI14 125<br />
AI15 126<br />
SEG29<br />
SEG30<br />
SEG31<br />
SEG32<br />
SEG33<br />
SEG34<br />
SEG35<br />
SEG36<br />
SEG37<br />
SEG38<br />
SEG39<br />
SEG40<br />
SEG41<br />
SBM_SEL/ICE_ADR15<br />
ICE_ADR14<br />
ICE_ADR13<br />
ICE_ADR12<br />
ICE_ADR11<br />
ICE_ADR10<br />
ICE_ADR9<br />
ICE_ADR8<br />
ICE_ADR7<br />
ICE_ADR6<br />
ICE_ADR5<br />
ICE_ADR4<br />
ICE_ADR3<br />
ICE_ADR2<br />
ICE_ADR1<br />
ICE_ADR0<br />
ICE_DA7<br />
ICE_DA6<br />
ICE_DA5<br />
64<br />
63<br />
62<br />
61<br />
60<br />
59<br />
58<br />
57<br />
56<br />
55<br />
54<br />
53<br />
52<br />
51<br />
50<br />
49<br />
48<br />
47<br />
46<br />
45<br />
44<br />
43<br />
42<br />
41<br />
40<br />
39<br />
38<br />
37<br />
36<br />
35<br />
34<br />
33<br />
HY11S14_LQFP128<br />
VDD_i<br />
4<br />
3<br />
U1<br />
VLCD<br />
96<br />
COM 0<br />
95<br />
COM 1<br />
94<br />
SEG0/COM2<br />
93<br />
SEG1/COM3<br />
92<br />
SEG2<br />
91<br />
SEG3<br />
90<br />
SEG4<br />
89<br />
SEG5<br />
88<br />
SEG6<br />
87<br />
SEG7<br />
86<br />
SEG8<br />
85<br />
SEG9 84<br />
SEG 10<br />
83<br />
SEG 11<br />
82<br />
SEG 12<br />
81<br />
SEG 13<br />
80<br />
SEG 14 79<br />
SEG 15<br />
78<br />
SEG 16<br />
77<br />
SEG 17<br />
76<br />
SEG 18<br />
75<br />
SEG 19 74<br />
SEG 20<br />
73<br />
SEG 21<br />
72<br />
SEG 22<br />
71<br />
SEG 23<br />
70<br />
SEG 24<br />
69<br />
SEG 25<br />
68<br />
SEG 26<br />
67<br />
SEG 27<br />
66<br />
SEG 28<br />
65<br />
COM 0<br />
COM 1<br />
COM 2<br />
COM 3<br />
SEG 2<br />
SEG 3<br />
SEG 4<br />
SEG 5<br />
SEG 6<br />
SEG 7<br />
SEG 8<br />
SEG 9<br />
SEG 10<br />
SEG 11<br />
SEG 12<br />
SEG 13<br />
SEG 14<br />
SEG 15<br />
SEG 16<br />
SEG 17<br />
SEG 18<br />
SEG 19<br />
SEG 20<br />
SEG 21<br />
SEG 22<br />
SEG 23<br />
SEG 24<br />
SEG 25<br />
SEG 26<br />
SEG 27<br />
SEG 28<br />
SEG29<br />
SEG30<br />
SEG31<br />
SEG32<br />
SEG33<br />
SEG34<br />
SEG35<br />
SEG36<br />
SEG37<br />
SEG38<br />
SEG39<br />
SEG40<br />
SEG41<br />
_SBM-SEL<br />
_ADR14<br />
_ADR13<br />
_ADR12<br />
_ADR11<br />
_ADR10<br />
_ADR9<br />
_ADR8<br />
_ADR7<br />
_ADR6<br />
_ADR5<br />
_ADR4<br />
_ADR3<br />
_ADR2<br />
_ADR1<br />
_ADR0<br />
_DA7<br />
_DA6<br />
_DA5<br />
COM0<br />
COM1<br />
COM2<br />
COM3<br />
Title<br />
Size<br />
A4<br />
A09001-1 V02<br />
Number Revision<br />
HY11S14 Target Board<br />
LCD2<br />
SEG 2<br />
SEG 3<br />
SEG 4<br />
SEG 5<br />
SEG 6<br />
SEG 7<br />
SEG 8<br />
SEG 9<br />
SEG 10<br />
SEG 11<br />
SEG 12<br />
SEG 13<br />
SEG 14<br />
SEG 15<br />
SEG 16<br />
SEG 17<br />
SEG 18<br />
SEG 19<br />
SEG 20<br />
SEG 21<br />
COM0<br />
COM1<br />
COM2/SEG0<br />
COM3/SEG1<br />
5<br />
6<br />
SEG 2<br />
7<br />
SEG 3<br />
8<br />
SEG 4<br />
9<br />
SEG 5<br />
10<br />
SEG 6<br />
11<br />
SEG 7<br />
12<br />
SEG 8<br />
13<br />
SEG 9<br />
14<br />
SEG 10<br />
15<br />
SEG 11<br />
16 SEG 12<br />
17<br />
SEG 13<br />
18<br />
SEG 14<br />
19<br />
SEG 15<br />
20<br />
SEG 16<br />
21 SEG 17<br />
22<br />
SEG 18<br />
23<br />
SEG 19<br />
24<br />
SEG 20<br />
SEG 21<br />
LCD_20*4<br />
J6<br />
LCD_20*4<br />
COM0<br />
COM2<br />
SEG2<br />
SEG4<br />
SEG6<br />
SEG8<br />
SEG10<br />
SEG12<br />
SEG14<br />
SEG16<br />
SEG18<br />
SEG20<br />
SEG22<br />
SEG24<br />
SEG26<br />
SEG28<br />
SEG30<br />
SEG32<br />
SEG34<br />
SEG36<br />
SEG38<br />
SEG40<br />
*. LCD NET<br />
JP11<br />
COM0 COM1<br />
1 2<br />
COM2 COM3<br />
3 4<br />
SEG2 SEG3<br />
5 6<br />
SEG4 SEG5<br />
7 8<br />
SEG6 SEG7<br />
9 10<br />
SEG8 SEG9<br />
11 12<br />
SEG10 SEG11<br />
13 14<br />
SEG12 SEG13<br />
15 16<br />
SEG14 SEG15<br />
17 18<br />
SEG16 SEG17<br />
19 20<br />
SEG18 SEG19<br />
21 22<br />
SEG20 SEG21<br />
23 24<br />
SEG22 SEG23<br />
25 26<br />
SEG24 SEG25<br />
27 28<br />
SEG26 SEG27<br />
29 30<br />
SEG28 SEG29<br />
31 32<br />
SEG30 SEG31<br />
33 34<br />
SEG32 SEG33<br />
35 36<br />
SEG34 SEG35<br />
37 38<br />
SEG36 SEG37<br />
39 40<br />
SEG38 SEG39<br />
41 42<br />
SEG40 SEG41<br />
43 44<br />
COM1<br />
COM3<br />
SEG3<br />
SEG5<br />
SEG7<br />
SEG9<br />
SEG11<br />
SEG13<br />
SEG15<br />
SEG17<br />
SEG19<br />
SEG21<br />
SEG23<br />
SEG25<br />
SEG27<br />
SEG29<br />
SEG31<br />
SEG33<br />
SEG35<br />
SEG37<br />
SEG39<br />
SEG41<br />
VSS_i<br />
RS232 Sel<br />
VSS_i<br />
TXD 1<br />
RXD 2<br />
4 PT1.4 TXD<br />
3 PT1.3 RXD<br />
RS232<br />
R17<br />
0<br />
S10<br />
C20<br />
1uF<br />
MAX232<br />
10 TXD<br />
RXD<br />
TXD_PC<br />
VSS_i<br />
RXD_PC<br />
C16<br />
1uF<br />
C17<br />
1uF<br />
VS-<br />
RXD_PC<br />
C1+<br />
VCC<br />
VS+<br />
GND<br />
MAX232<br />
C1- T1OUT<br />
C2+<br />
R1IN<br />
C2- R1OUT<br />
T1IN<br />
T2OUT T2IN<br />
TXD_PC<br />
R2IN R2OUT<br />
16<br />
15<br />
14<br />
13<br />
12<br />
11<br />
C19 1uF<br />
CON1<br />
U3<br />
1uF<br />
RS232 Power<br />
VSS_i<br />
C18<br />
1<br />
2<br />
VDD_bat J13<br />
*. EUART NET<br />
VSS_i<br />
R15<br />
100K<br />
U4<br />
GS2612<br />
VSS_i<br />
C21<br />
10uF<br />
R14<br />
42.2K<br />
EN GND<br />
IN GND<br />
OUT GND<br />
ADJ GND<br />
R8<br />
100K<br />
JP5<br />
VSSBAT<br />
VDD_i<br />
VDD Sel<br />
VDD_bat<br />
ON2<br />
COM2<br />
OFF2<br />
1<br />
2<br />
J2<br />
EXT<br />
3<br />
2<br />
3V<br />
1<br />
VSS_i<br />
J1<br />
Current test<br />
C6<br />
C7<br />
0.1uF<br />
10uF<br />
S2<br />
D1<br />
5<br />
ON1<br />
3<br />
1N4001 COM1<br />
1<br />
OFF1<br />
VIN<br />
*. POWER NET<br />
JP4<br />
VBAT<br />
Figure 27<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page24
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6<br />
8<br />
1<br />
3<br />
5<br />
7<br />
9<br />
2<br />
1<br />
3<br />
2<br />
1<br />
2<br />
3<br />
4<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
1<br />
2<br />
3<br />
4<br />
1<br />
2<br />
3<br />
4<br />
5<br />
4<br />
6<br />
7<br />
8<br />
9<br />
8<br />
7<br />
6<br />
5<br />
6<br />
2<br />
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
RP<br />
470<br />
1<br />
VSS_i<br />
VSS_i<br />
24C02<br />
NC<br />
NC<br />
NC<br />
VSS<br />
U2<br />
VSS_i<br />
VSS_i<br />
J15 R3<br />
10k<br />
R2<br />
10k<br />
J14 R1<br />
10k<br />
VDDA<br />
JP1<br />
1<br />
3<br />
ADREF<br />
OPNVS<br />
OPPVS<br />
C8<br />
0.1uF<br />
VCC<br />
WP<br />
SCL<br />
SDA<br />
D2<br />
PT20<br />
D3<br />
PT21<br />
9<br />
8<br />
7<br />
6<br />
5<br />
4<br />
3<br />
2<br />
D4<br />
PT22<br />
VDD_i I/O (PT2 )<br />
D5<br />
PT23<br />
PT2.1_1<br />
PT2. 0_1<br />
PT2.4_1<br />
PT2. 3_1<br />
PT2.2_1<br />
10<br />
12<br />
14<br />
16<br />
18<br />
20<br />
11<br />
13<br />
15<br />
17<br />
19<br />
D6<br />
PT24<br />
D7<br />
PT25<br />
PT2.5_1<br />
VSS_i JP8<br />
D8<br />
PT26<br />
PT2. 6_1<br />
PT27<br />
PT2. 7_1<br />
D9<br />
EEPROM Sel<br />
II C_ SD A<br />
II C_ SC L<br />
1<br />
2<br />
4 SCL PT2. 2<br />
3 SDA PT2. 3<br />
S9<br />
II C_ SC L<br />
II C_ SD A<br />
VSS_i WP select<br />
1<br />
1<br />
2<br />
2<br />
3<br />
3<br />
R4<br />
10K<br />
R5<br />
10K<br />
VDD_bat<br />
J3<br />
VDD_bat<br />
*. EEPROMNET<br />
VDD_bat<br />
J4<br />
OPNET<br />
3<br />
2<br />
1<br />
OP0O_1<br />
OPNVS<br />
OPNIN<br />
OPPVS<br />
OPPIN<br />
OPPGND<br />
1 2<br />
3 4<br />
5 6<br />
7 8<br />
9 10<br />
11 12<br />
OP0O_1<br />
OPNVS C9 27nF<br />
OPNIN<br />
OPPVS<br />
ACM<br />
VSS_i<br />
OPPIN<br />
OPPGND<br />
JP6<br />
RES1<br />
RES1<br />
R10<br />
R12<br />
R13<br />
135<br />
RES1<br />
RES1<br />
R9<br />
OPPIN OPNIN<br />
OPPGND<br />
R11<br />
OPO<br />
CAP<br />
2<br />
4<br />
AI2<br />
AI3<br />
AI2<br />
AI3<br />
C1<br />
ADINPUT<br />
VSS_ i<br />
AI0<br />
AI1<br />
1<br />
2<br />
3<br />
4<br />
AI0<br />
AI1<br />
VSS_i<br />
1<br />
2<br />
3<br />
4<br />
JP2<br />
VDDA<br />
J16<br />
VDDA<br />
VSS_i PT1.1<br />
VDD_i<br />
S5 PT1. 1<br />
VSS_i<br />
VSS VSS_ i<br />
PT2.7 PT2. 7<br />
PT2.6 PT2. 6<br />
PT2.5 PT2. 5 C22<br />
PT2.4 PT2. 4 0. 1uF<br />
PT2.3 PT2. 3<br />
PT2.2 PT2. 2 VDD_i<br />
PT2.1 PT2. 1<br />
PT2.0 PT2. 0<br />
VDD<br />
PT1.0<br />
S4<br />
*. PT2 I/O NET<br />
VSS_i RST<br />
J12<br />
PFD Sel<br />
S3<br />
2<br />
1<br />
VSS_i<br />
4. 7uF<br />
PT2. 2<br />
1<br />
A<br />
C25<br />
BAV99<br />
C26<br />
0.1uF<br />
K/A K<br />
10K<br />
CE<br />
Q1<br />
B<br />
2N3906<br />
D10<br />
R18<br />
1<br />
1<br />
3<br />
J1 1<br />
PUMP Output<br />
J10<br />
Pump Control<br />
R19 R20<br />
VIN<br />
VSS_i Analog Port VSS_i<br />
C10~C15 近 IC<br />
Analog Net 信 號 均 經 過 C10~C15 後 再 進 IC 腳 位<br />
VDDA<br />
ACM<br />
OPO<br />
AI0<br />
AI1<br />
AI2<br />
AI3<br />
AI4<br />
AI5<br />
AI6<br />
AI7<br />
AI8<br />
AI9<br />
AI10<br />
AI11<br />
AI12<br />
AI13<br />
AI14<br />
AI15<br />
JP3<br />
VDDA<br />
ACM<br />
OPO<br />
AI0<br />
AI1<br />
AI2<br />
AI3<br />
AI4<br />
AI5<br />
AI6<br />
AI7<br />
AI8<br />
AI9<br />
AI10<br />
AI11<br />
AI12<br />
AI13<br />
AI14<br />
AI15<br />
VSS_i<br />
1 2<br />
3 4<br />
5 6<br />
7 8<br />
9 10<br />
11 12<br />
13 14<br />
15 16<br />
17 18<br />
19 20<br />
21 22<br />
23 24<br />
25 26<br />
27 28<br />
29 30<br />
31 32<br />
33 34<br />
35 36<br />
37 38<br />
39 40<br />
VDDA<br />
ACM<br />
OPO<br />
AI0<br />
AI1<br />
AI2<br />
AI3<br />
AI4<br />
AI5<br />
AI6<br />
AI7<br />
AI8<br />
AI9<br />
AI10<br />
AI11<br />
AI12<br />
AI13<br />
AI14<br />
AI15<br />
22pF<br />
C3<br />
R6<br />
97<br />
CR2<br />
98<br />
32 768<br />
C4 10M<br />
PT2.0 99<br />
PT2.1 100<br />
22pF<br />
PT2.2 101<br />
VSS_i<br />
PT2.3 102<br />
PT2.4 103<br />
CR1<br />
PT2.5 1<strong>04</strong><br />
PT2.6 105<br />
4MHz<br />
PT2.7 106<br />
R7<br />
107<br />
1M 22pF<br />
VDDA 108<br />
C5<br />
ACM 109<br />
OPO 110<br />
C11<br />
AI0 111<br />
VSS_i<br />
0.1uF AI1 112<br />
C12<br />
AI2 113<br />
0.1uF AI3 114<br />
C10 C13<br />
AI4 115<br />
0.1uF AI5 116<br />
0.1uF C14<br />
AI6 117<br />
0.1uF AI7 118<br />
C15<br />
AI8 119<br />
0.1uF AI9 120<br />
AI10 121<br />
AI11 122<br />
AI12 123<br />
AI13 124<br />
PUMP Circuit<br />
AI14 125<br />
AI15 126<br />
127<br />
VSS_ i 128<br />
AI6<br />
AI5<br />
*. Analog NET<br />
C2 OSC Sel<br />
22pF<br />
VDD_i<br />
*. JP3 靠 近 晶 片<br />
*. 框 內 電 路 靠 近 JP3<br />
1<br />
2<br />
4<br />
3<br />
S1<br />
VSS_i<br />
I/O(PT3)<br />
VSS_i<br />
SPI VSS_i<br />
PT3. 0 PT3.0<br />
PT3. 1<br />
PT3. 2 PT3.2<br />
PT3. 3<br />
PT3. 4 PT3.4<br />
PT3. 5<br />
PT3. 6 PT3.6<br />
PT3. 7<br />
1 2<br />
3 4<br />
5 6<br />
7 8<br />
9 10<br />
11 12<br />
PT3.1<br />
PT3.3<br />
PT3.5<br />
PT3.7<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
PT1.2 SDI(PT1.2)<br />
PT1.6 SCK(PT1.6)<br />
PT1.5 SDO(PT1.5)<br />
PT1.1 CS(PT1.1)<br />
VSS_i<br />
VDD_i<br />
I/O(PT1)<br />
JP12<br />
VSS_i<br />
VDD_i<br />
VSS_ i<br />
J7<br />
VDD_i<br />
0. 1uF<br />
PT1. 0 PT1. 1<br />
PT1. 2 PT1. 3<br />
PT1. 4 PT1. 5<br />
PT1. 6 PT1. 7<br />
VDD_i<br />
JP9<br />
VDD_i<br />
PT1.0<br />
1 2<br />
PT1.2<br />
3 4<br />
PT1.4<br />
5 6<br />
PT1.6<br />
7 8<br />
VSS_i<br />
9 10<br />
11 12<br />
Key<br />
PT1.1<br />
PT1.3<br />
PT1.5<br />
PT1.7<br />
S8<br />
S7<br />
1<br />
2<br />
3<br />
J5<br />
VDD_i<br />
S6<br />
VDD_i VSS_i<br />
C24<br />
*. PT1,PT3 I/O NET<br />
U5<br />
BUZZER<br />
VSS_i<br />
J8<br />
Program<br />
BZ<br />
C23<br />
10nF<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
2<br />
1<br />
VSS_i<br />
VSS_i<br />
J9<br />
R16<br />
10 0K<br />
VPP 1<br />
PT1.0 2<br />
PT1.1 3<br />
PT1.2 4<br />
PT1.3 5<br />
PT1.4 6<br />
PT1.5 7<br />
PT1.6 8<br />
PT1.7 9<br />
PT3.0 10<br />
PT3.1 11<br />
PT3.2 12<br />
PT3.3 13<br />
PT3.4 14<br />
PT3.5 15<br />
PT3.6 16<br />
PT3.7 17<br />
18<br />
19<br />
_V S S_ ram 20<br />
_S D I 21<br />
_S D O 22<br />
_S C K 23<br />
ICECS 24<br />
_C S 25<br />
_R D 26<br />
_W E 27<br />
_DA0 28<br />
_DA1 29<br />
_DA2 30<br />
_DA3 31<br />
_DA4 32<br />
12 9<br />
13 0<br />
VDD_i<br />
VIN<br />
VDD_i<br />
.<br />
HY11S14<br />
NC<br />
VDD<br />
PT2.0/XTO<br />
PT2.1/XTI<br />
PT2. 2/PFD/PWM0/CPAI0<br />
PT2. 3/CPAI1/PWM1/TMCKI<br />
PT2.4/CCP0/CPAI2/ PWM2<br />
PT2.5/CCP1/CPAI3/ PWM3<br />
PT2. 6/CPAI4/CPAO<br />
PT2. 7/CPAI5/CPAO<br />
NC<br />
VDDA<br />
ACM<br />
OPO<br />
AI0/PT4.0<br />
AI1/PT4.1<br />
AI2/PT4.2<br />
AI3/PT4.3<br />
AI4/PT4.4<br />
AI5/PT4.5<br />
AI6/PT4.6<br />
AI7/PT4.7<br />
AI8/PT5.0<br />
AI9/PT5.1<br />
AI10/PT5.2<br />
AI11/PT5.3<br />
AI12/PT5.4<br />
AI13/PT5.5<br />
AI14/PT5.6<br />
AI15/PT5.7<br />
NC<br />
VSS<br />
VPP/RST<br />
PT1.0/INT0/CPAI6/PSCK<br />
PT1.1/INT1/CPAI7/SCE/PSDI<br />
PT1.2/INT2/SDI/SVSIN<br />
PT1.3/TST/INT3/RX<br />
PT1.4/INT4/TX<br />
PT1.5/INT5/SDO/PSDO<br />
PT1.6/INT6/SCK<br />
PT1.7/INT7/BZ<br />
PT3.0<br />
PT3.1<br />
PT3.2<br />
PT3.3<br />
PT3.4<br />
PT3.5<br />
PT3.6<br />
PT3.7<br />
NC<br />
ICE_VCC<br />
ICE_VS S<br />
ICE_SD I<br />
ICE_SD O<br />
ICE_SCK<br />
ICE_CS<br />
ICE_CS 0<br />
ICE_RD<br />
ICE_W E<br />
ICE_DA 0<br />
ICE_DA 1<br />
ICE_DA 2<br />
ICE_DA 3<br />
ICE_DA 4<br />
VIN<br />
VIN<br />
SEG29<br />
SEG30<br />
SEG31<br />
SEG32<br />
SEG33<br />
SEG34<br />
SEG35<br />
SEG36<br />
SEG37<br />
SEG38<br />
SEG39<br />
SEG40<br />
SEG41<br />
SBM_SEL/ICE_ADR15<br />
ICE_ADR14<br />
ICE_ADR13<br />
ICE_ADR12<br />
ICE_ADR11<br />
ICE_ADR10<br />
ICE_ADR9<br />
ICE_ADR8<br />
ICE_ADR7<br />
ICE_ADR6<br />
ICE_ADR5<br />
ICE_ADR4<br />
ICE_ADR3<br />
ICE_ADR2<br />
ICE_ADR1<br />
ICE_ADR0<br />
ICE_DA7<br />
ICE_DA6<br />
ICE_DA5<br />
HY11S14_LQFP128<br />
VLCD<br />
COM0<br />
COM1<br />
SEG0/COM2<br />
SEG1/COM3<br />
SEG2<br />
SEG3<br />
SEG4<br />
SEG5<br />
SEG6<br />
SEG7<br />
SEG8<br />
SEG9<br />
SEG10<br />
SEG11<br />
SEG12<br />
SEG13<br />
SEG14<br />
SEG15<br />
SEG16<br />
SEG17<br />
SEG18<br />
SEG19<br />
SEG20<br />
SEG21<br />
SEG22<br />
SEG23<br />
SEG24<br />
SEG25<br />
SEG26<br />
SEG27<br />
SEG28<br />
U1<br />
96<br />
95<br />
94<br />
93<br />
92<br />
91<br />
90<br />
89<br />
88<br />
87<br />
86<br />
85<br />
84<br />
83<br />
82<br />
81<br />
80<br />
79<br />
78<br />
77<br />
76<br />
75<br />
74<br />
73<br />
72<br />
71<br />
70<br />
69<br />
68<br />
67<br />
66<br />
65<br />
COM0<br />
COM1<br />
COM2<br />
COM3<br />
SEG2<br />
SEG3<br />
SEG4<br />
SEG5<br />
SEG6<br />
SEG7<br />
SEG8<br />
SEG9<br />
SEG10<br />
SEG11<br />
SEG12<br />
SEG13<br />
SEG14<br />
SEG15<br />
SEG16<br />
SEG17<br />
SEG18<br />
SEG19<br />
SEG20<br />
SEG21<br />
SEG22<br />
SEG23<br />
SEG24<br />
SEG25<br />
SEG26<br />
SEG27<br />
SEG28<br />
64 SEG29<br />
63 SEG30<br />
62 SEG31<br />
61 SEG32<br />
60 SEG33<br />
59 SEG34<br />
58 SEG35<br />
57 SEG36<br />
56 SEG37<br />
55 SEG38<br />
54 SEG39<br />
53 SEG40<br />
52 SEG41<br />
51 _SBM-SEL<br />
50 _ADR14<br />
49 _ADR13<br />
48 _ADR12<br />
47 _ADR11<br />
46 _ADR10<br />
45 _ADR9<br />
44 _ADR8<br />
43 _ADR7<br />
42 _ADR6<br />
41 _ADR5<br />
40 _ADR4<br />
39 _ADR3<br />
38 _ADR2<br />
37 _ADR1<br />
36 _ADR0<br />
35 _DA7<br />
34 _DA6<br />
33 _DA5<br />
COM0<br />
COM1<br />
COM2<br />
COM3<br />
Date: 5Dec2011 Sheet of<br />
A4<br />
A11022-1 V01<br />
Size<br />
Number Revision<br />
HY11S14 Target Board<br />
Title<br />
LCD2<br />
SEG2<br />
SEG3<br />
SEG4<br />
SEG5<br />
SEG6<br />
SEG7<br />
SEG8<br />
SEG9<br />
SEG10<br />
SEG11<br />
SEG12<br />
SEG13<br />
SEG14<br />
SEG15<br />
SEG16<br />
SEG17<br />
SEG18<br />
SEG19<br />
SEG20<br />
SEG21<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
13<br />
14<br />
15<br />
16<br />
17<br />
18<br />
19<br />
20<br />
21<br />
22<br />
23<br />
24<br />
COM0<br />
COM1<br />
COM2/SEG0<br />
COM3/SEG1<br />
SEG2<br />
SEG3<br />
SEG4<br />
SEG5<br />
SEG6<br />
SEG7<br />
SEG8<br />
SEG9<br />
SEG10<br />
SEG11<br />
SEG12<br />
SEG13<br />
SEG14<br />
SEG15<br />
SEG16<br />
SEG17<br />
SEG18<br />
SEG19<br />
SEG20<br />
SEG21<br />
LCD_20*4<br />
J6<br />
LCD_20 *4<br />
COM0<br />
COM2<br />
SEG2<br />
SEG4<br />
SEG6<br />
SEG8<br />
SEG10<br />
SEG12<br />
SEG14<br />
SEG16<br />
SEG18<br />
SEG20<br />
SEG22<br />
SEG24<br />
SEG26<br />
SEG28<br />
SEG30<br />
SEG32<br />
SEG34<br />
SEG36<br />
SEG38<br />
SEG40<br />
*. LCD NET<br />
SEG1 0 SEG1 2 SEG1 4 SEG1 6 SEG1 8 SEG2 0 SEG2 2 SEG2 4 SEG2 6 SEG2 8 SEG3 0 SEG3 2 SEG3 4 SEG3 6 SEG3 8 SEG4 0 JP11<br />
COM0 COM1<br />
1 2<br />
COM2 COM3<br />
3 4<br />
SEG2 SEG3<br />
5 6<br />
SEG4 SEG5<br />
7 8<br />
SEG6 SEG7<br />
9 10<br />
SEG8 SEG9<br />
11 12<br />
SEG11<br />
13 14<br />
SEG13<br />
15 16<br />
SEG15<br />
17 18<br />
SEG17<br />
19 20<br />
SEG19<br />
21 22<br />
SEG21<br />
23 24<br />
25 26<br />
SEG23<br />
SEG25<br />
27 28<br />
29 30<br />
SEG27<br />
SEG29<br />
31 32<br />
33 34<br />
SEG31<br />
SEG33<br />
35 36<br />
SEG35<br />
37 38<br />
SEG37<br />
39 40<br />
SEG39<br />
41 42<br />
43 44<br />
SEG41<br />
COM1<br />
COM3<br />
SEG3<br />
SEG5<br />
SEG7<br />
SEG9<br />
SEG11<br />
SEG13<br />
SEG15<br />
SEG17<br />
SEG19<br />
SEG21<br />
SEG23<br />
SEG25<br />
SEG27<br />
SEG29<br />
SEG31<br />
SEG33<br />
SEG35<br />
SEG37<br />
SEG39<br />
SEG41<br />
VSS_i<br />
RS232 Sel<br />
VSS_i<br />
TXD 1<br />
RXD 2<br />
4 PT1. 4 TXD<br />
3 PT1. 3 RXD<br />
RS232<br />
R17<br />
0<br />
S10<br />
C20<br />
1uF<br />
MAX232<br />
10 TXD<br />
RXD<br />
TXD_PC<br />
VSS_ i<br />
RXD_PC<br />
C16<br />
1u F<br />
C17<br />
C2-<br />
1uF<br />
VS-<br />
RXD_PC<br />
C1+<br />
VCC<br />
VS+<br />
GND<br />
MAX232<br />
C1- T1OUT<br />
C2+ R1IN<br />
R1OUT<br />
T1 IN<br />
T2 OUT T2 IN<br />
TXD_PC<br />
R2IN R2OUT<br />
16<br />
15<br />
14<br />
13<br />
12<br />
11<br />
C19 1uF<br />
CON1<br />
U3<br />
1uF<br />
RS232 Power<br />
VSS_i<br />
C18<br />
1<br />
2<br />
VDD_bat J13<br />
*. EUART NET<br />
VSS_i<br />
R15<br />
100K<br />
U4<br />
GS2612 VSS_i<br />
C21<br />
10uF<br />
R14<br />
42.2K<br />
EN GND<br />
IN GND<br />
OUT GND<br />
ADJ GND<br />
R8<br />
100K<br />
JP5<br />
VSSBAT<br />
VDD_i<br />
VDD Sel<br />
VDD_bat<br />
ON2<br />
COM2<br />
OFF2<br />
1<br />
2<br />
J2<br />
EXT<br />
3<br />
2<br />
3V<br />
1<br />
VSS_i<br />
J1<br />
Current test<br />
C6<br />
C7<br />
0.1uF<br />
10uF<br />
S2<br />
D1<br />
5 VIN<br />
ON1<br />
3<br />
1N4001<br />
COM1<br />
1 V1<br />
OFF1<br />
*. POWER NET<br />
JP4<br />
VBAT<br />
Figure 28<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page25
HY11S14<br />
HY-IDE Hardware User’s Manual<br />
5. Simple Error Detection<br />
5.1. ICE cannot connect to software<br />
Simple error correction is described as follows when ICE cannot connect to software:<br />
• Hardware configuration, IDE mode error detection:<br />
• Options =>Interface Setup =>Interface Mode defaults as USB<br />
• IDE Mode is emulate and Debug<br />
.<br />
© 2009-2012 HYCON Technology Corp<br />
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APD-HYIDE005-V<strong>04</strong>_EN<br />
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HY11S14<br />
HY-IDE Hardware User’s Manual<br />
• Power System Debug:<br />
• This action is to testify whether HY-IDE USB Control Board is completely<br />
connected to PC through USB port and the regulated 3V voltage output functions<br />
normally.<br />
• Options =>ICE Test => Click CK ALL and confirm VCC voltage is close to 3V.<br />
• When Control Board only connects to USB port, the voltage of VPP closes to 5V;<br />
when Adapter 9V of J4 is connected, VPP voltage will close to 6.3V.<br />
.<br />
© 2009-2012 HYCON Technology Corp<br />
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APD-HYIDE005-V<strong>04</strong>_EN<br />
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HY11S14<br />
HY-IDE Hardware User’s Manual<br />
• ICE Power Debug:<br />
• When using USB to supply power, a few switches must be inspected to ensure<br />
ICE chip operates normally.<br />
ICE Board S1, switching VIN, VDD_bat to ON<br />
Target Board. Short J2 PIN1-2 and J1, switching S2 to ON<br />
.<br />
Use DMM to inspect whether 3V voltage exists in VDD(PIN98)-VSS(PIN128)<br />
and ICE_VCC(PIN19)-VSS(PIN128);<br />
If voltage is absent, please refer to procedures of ”Power System Debug”<br />
and ”ICE Power Debug” chapter;<br />
• Using external power supply, inspects some switches:<br />
ICE Board S1, switching VDD_bat to ON, other switches turns OFF<br />
© 2009-2012 HYCON Technology Corp<br />
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APD-HYIDE005-V<strong>04</strong>_EN<br />
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HY11S14<br />
HY-IDE Hardware User’s Manual<br />
Target Board JP4 is inputted from external voltage, making J1 short, PIN1-2<br />
of J2 short, (if > 3V is needed, short PIN2-3 of J2), S2 ON<br />
Using voltmeter to inspect, whether 3V voltage exists in<br />
VDD(PIN98)-VSS(PIN128) and ICE_VCC(PIN19)-VSS(PIN128);<br />
If voltage is absent, please refer to procedures of ”Power System Debug”<br />
and ”ICE Power Debug” chapter;<br />
5.2. Program Memory Loading Fail<br />
.<br />
• ICE SRAM Debug:<br />
• Check whether ICE Board J1 & J2 is correct; when emulating HY11S14 (16K), J1<br />
PIN1-2 and J2 PIN1-2 must be short circuit.<br />
© 2009-2012 HYCON Technology Corp<br />
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APD-HYIDE005-V<strong>04</strong>_EN<br />
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HY11S14<br />
HY-IDE Hardware User’s Manual<br />
• SRAM Data, Program ROM Data Debug:<br />
• Options =>ICE Test =>SRAM Data<br />
Key in 80 in Address and AA in Write Data respectively. Click Write button,<br />
data will be written in SRAM;<br />
Click Read button, readout data; the filled in data will display in Read Data<br />
location.<br />
• Options =>ICE Test => Program ROM Data<br />
Key in 80 in Address and 5AA5 in Write Data respectively. Click Write button,<br />
data will be written in ROM;<br />
Click Read button, readout data; the filled in data will display in Read Data<br />
location.<br />
.<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
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HY11S14<br />
HY-IDE Hardware User’s Manual<br />
6. Revision History<br />
Major differences are stated thereinafter:<br />
<strong>Version</strong> Page Revision Summary<br />
V01 ALL First edition<br />
V02 26~30 Add Chapter 5 Simple Error Detection<br />
V<strong>04</strong> ALL<br />
28<br />
Add the description related to DK03<br />
Correct the description of ICE power debug<br />
.<br />
© 2009-2012 HYCON Technology Corp<br />
www.hycontek.com<br />
APD-HYIDE005-V<strong>04</strong>_EN<br />
page31