Sign In
Upload
Manuals
Brands
Phytec Manuals
Microcontrollers
phyCORE-167CR
Phytec phyCORE-167CR Manuals
Manuals and User Guides for Phytec phyCORE-167CR. We have
1
Phytec phyCORE-167CR manual available for free PDF download: Hardware Manual
Phytec phyCORE-167CR Hardware Manual (114 pages)
Brand:
Phytec
| Category:
Microcontrollers
| Size: 0 MB
Table of Contents
Table of Contents
3
Preface
11
1 Introduction
13
Block Diagram
16
View of the Phycore-167CR/167CS
16
Figure 1: Block Diagram Phycore-167CR/167CS
16
Figure 2: View of the Phycore-167CR/167CS
16
2 Pin Description
17
Figure 3 Pinout of the Phycore-Connector (Top View, with Cross Section Insert)
19
Table 1: Pinout of the Phycore-Connector X1
23
3 Jumpers
25
Figure 4: Numbering of the Jumper Pads
25
Figure 5: Location of the Jumpers (Component Side / Soldering Side)
25
Table 2: Jumper Settings
28
J1 Use of Pin 30 on the SRAM
29
Table 3: J1 SRAM Capacity Configuration
29
J2 Internal or External Program Memory
30
J3 Flash Addressing
30
Table 4: J2 Code Fetch Selection
30
J4, J5 A/D Reference Voltage
31
Table 5: J3 Addressing the Flash
31
Table 6: J4, J5 A/D Converter Reference Voltage
31
J6 Oscillator Watchdog / On-Chip Flash
32
J7, J8 Use of the External UART
32
Table 7: J6 Activating the Oscillator Watchdog
32
J9, J10 Configuration of P3.3, P3.4 for I²C Bus
33
Table 8: J7, J8 Control Signals for Optional External UART
33
Table 9: J9, J10 I²C Bus Configuration
33
J11 RTC Interrupt Output
34
J12 Write Protection of EEPROM/FRAM
34
Table 10: J11 RTC Interrupt Configuration
34
Table 11: J12 Write Protection of EEPROM/FRAM
34
J15 Address of the Serial EEPROM/ FRAM
35
Second Serial Interface Configuration J13, J14
35
Table 12: J13, J14 Second Serial Interface Configuration
35
Table 13: J15 EEPROM/FRAM Address Configuration
35
CAN Interfaces J16, J17, J18, J19
36
J20 Remote Download Source
37
Table 14: J16, J17, J18, J19 CAN Interface Configuration
37
Table 15: J20 Remote Download Source Configuration
37
J21, J22 Serial Interface
38
Table 16: J21, J22 First Serial Interface Configuration
38
J23, J24 Microcontroller Supply Voltage
39
Table 17: J23, J24 Configuration VCC Pins Microcontroller
39
4 System Configuration
41
System Startup Configuration
41
Table 18: Functional Settings on Port P0 for System Startup Configuration
42
Table 19: System Startup Configuration Registers
44
5 Memory Models
45
Figure 6: Memory Model Examples
48
Bus Timing
49
6 Serial Interfaces
51
Interface
51
CAN Interface
52
7 The Real-Time Clock RTC-8563 (U10)
53
8 Serial EEPROM/FRAM (U9)
54
Table 20: Memory Device Options for U9
54
9 Remote Supervisory Chip (U8)
55
10 Flash Memory (U1)
56
11 Battery Buffer and Voltage Supervisor Chip (U13)
57
12 Technical Specifications
59
Figure 7: Physical Dimensions
59
13 Hints for Handling the Phycore-167CR/167CS
61
14 The Phycore-167CR/167CS on the Phycore Development Board HD200
63
Concept of the Phycore Development Board HD200
63
Figure 8: Modular Development and Expansion Board Concept with the Phycore-167CR/167CS
64
Development Board HD200 Connectors and Jumpers
65
Connectors
65
Figure 9: Location of Connectors on the Phycore Development Board HD200
65
Jumpers on the Phycore Development Board HD200
67
Figure 10: Numbering of Jumper Pads
67
Figure 11: Location of the Jumpers (View of the Component Side)
67
Figure 12: Default Jumper Settings of the Phycore Development Board HD200 with Phycore-167CR/167CS
68
Unsupported Features and Improper Jumper Settings
69
Table 21: Improper Jumper Setting for JP16 on the
69
Table 22: Improper Jumper Setting for JP30/33 on the
69
Functional Components on the Phycore Development Board HD200
70
Power Supply at X1
71
Figure 13: Connecting the Supply Voltage at X1
71
Table 23: JP9 Configuration of the Main Supply Voltage VCC
71
Table 24: JP9 Improper Jumper Settings for the Main Supply Voltage
72
Activating the Bootstrap Loader
73
Table 25: JP28 Configuration of the Boot Button
73
Table 26: JP28 Configuration of a Permanent Bootstrap Loader Start
74
Table 27: JP22, JP23, JP10 Configuration of Boot Via RS-232
74
Table 28: Improper Jumper Settings for Boot Via RS-232
74
First Serial Interface at Socket P1A
75
Figure 14: Pin Assignment of the DB-9 Socket P1A as First RS-232 (Front View)
75
Table 29: Jumper Configuration for the First RS-232 Interface
75
Table 30: Improper Jumper Settings for DB-9 Socket P1A as
76
Second Serial Interface at Socket P1B
77
Table 31: Jumper Configuration of the DB-9 Socket P1B (no Second RS-232)
77
Table 32: Improper Jumper Settings for DB-9 Socket P1B (no Second RS-232)
78
Figure 15: Pin Assignment of the DB-9 Socket P1B as Second RS-232 (UART Populated, Front View)
79
Table 33: Jumper Configuration of the DB-9 Socket P1B
79
Figure 16: Pin Assignment of the DB-9 Socket P1B as Emulated
80
Table 34: Jumper Configuration of the DB-9 Socket P1B
80
Table 35: Improper Jumper Settings for DB-9 Socket P1B (2 Nd RS-232 Via Software Emulation)
81
First CAN Interface at Plug P2A
82
Figure 17: Pin Assignment of the DB-9 Plug P2A (CAN Transceiver on Phycore-167CR/167CS, Front View)
82
Table 36: Jumper Configuration for CAN Plug P2A Using the CAN Transceiver on the Phycore-167CR/167CS
82
Figure 18: Pin Assignment of the DB-9 Plug P2A (CAN Transceiver on Development Board)
83
Table 37: Jumper Configuration for CAN Plug P2A Using the CAN Transceiver on the Development Board
83
Table 38: Improper Jumper Settings for the CAN Plug P2A
84
Table 39: Jumper Configuration for CAN Plug P2A Using the CAN Transceiver on the Development Board with Galvanic Separation
85
Figure 19: Pin Assignment of the DB-9 Plug P2A
86
Table 40: Improper Jumper Settings for the CAN Plug P2A
86
Second CAN Interface at Plug P2B
87
Figure 20: Pin Assignment of the DB-9 Plug P2B
87
Table 41: Jumper Configuration for CAN Plug P2B Using the CAN Transceiver on the Phycore-167CS
87
Figure 21: Pin Assignment of the DB-9 Plug P2B (CAN Transceiver on Development Board, Only with C167CS)
88
Figure 22: Pin Assignment of the DB-9 Plug P2B
88
Table 42: Jumper Configuration for CAN Plug P2B Using the CAN Transceiver on the Phycore-167CS
88
Transceiver on the Development Board with Galvanic Separation (Only with C167CS)
90
Programmable LED D3
92
Pin Assignment Summary of the Phycore, the Expansion Bus and the Patch Field
92
Figure 23: Pin Assignment Scheme of the Expansion Bus
93
Figure 24: Pin Assignment Scheme of the Patch Field
93
Phycore-167CR/167CS / Development Board Expansion Board
94
Phycore-167CR/167CS / Development Board Expansion Board
95
Phycore-167CR/167CS / Development Board Expansion Board
96
Phycore-167CR/167CS / Development Board Expansion Board
97
Phycore-167CR/167CS / Development Board Expansion Board
98
Table 53: Unused Pins on the Phycore-167CR/167CS Development Board / Expansion Board
99
Battery Connector BAT1
100
Releasing the /NMI Interrupt
100
DS2401 Silicon Serial Number
100
Pin Header Connector X4
101
Figure 25: Connecting the DS2401 Silicon Serial Number
101
Figure 26: Pin Assignment of the DS2401 Silicon Serial Number
101
15 Debugcore-167CR/167CS
103
Components of the Debugcore
103
Figure 27: Positions of the Additional Components on the Debugcore-167CR/167CS
104
Debugadapter-167
105
The Quad-Connector
106
Table 57: Connector Layout of the of the Quad-Connector (X6)
107
Physical Dimensions
108
Figure 28: Physical Dimensions Debugcore-167CR/167CS
108
Index
109
Advertisement
Advertisement
Related Products
Phytec phyCORE-167CS
Phytec phyCORE-i.MX31
Phytec phyCORE-SC520
Phytec phyCORE-167
Phytec phyCORE-MCF548x
Phytec phyCORE-MPC5676/57 Series
Phytec phyCORE-DS80C390
Phytec phyCORE-i.MX 8M Plus
Phytec phyCORE-XC167
Phytec phyCORE-PXAG49
Phytec Categories
Computer Hardware
Motherboard
Single board computers
Microcontrollers
Control Unit
More Phytec Manuals
Login
Sign In
OR
Sign in with Facebook
Sign in with Google
Upload manual
Upload from disk
Upload from URL