SAK-TC1197-256F180E AC Infineon Technologies, SAK-TC1197-256F180E AC Datasheet

Page 1

TC1197 32-Bit Single-Chip Microcontroller Data Sheet V1.1 2009- ...

Page 2

... Infineon Technologies Office. Infineon Technologies components may be used in life-support devices or systems only with the express written approval of Infineon Technologies failure of such components can reasonably be expected to cause the failure of that life-support device or system or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body or to support and/or maintain and sustain and/or protect human life ...

Page 3

TC1197 32-Bit Single-Chip Microcontroller Data Sheet V1.1 2009- ...

Page 4

... Footnote 2 is added for EBU Burst Mode Access Timing section. Trademarks TriCore® trademark of Infineon Technologies AG. We Listen to Your Comments Any information within this document that you feel is wrong, unclear or missing at all? Your feedback will help us to continuously improve the quality of this document. ...

Page 5

Table of Contents 1 Summary of Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 6

Functionality of GPTA0 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45 ...

Page 7

EBU Asynchronous Timings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 159 5.3.9.2 EBU Burst Mode Access ...

Page 8

Summary of Features • High-performance 32-bit super-scalar TriCore V1.3.1 CPU with 4-stage pipeline – Superior real-time performance – Strong bit handling – Fully integrated DSP capabilities – Single precision Floating Point Unit (FPU) – 180 MHz operation at full ...

Page 9

Two High-Speed Micro Link interface (MLI) for serial inter-processor communication – One MultiCAN Module with 4 CAN nodes and 128 free assignable message objects for high efficiency data handling via FIFO buffering and gateway data transfer – Two General ...

Page 10

... For the available ordering codes for the TC1197 please refer to the “Product Catalog Microcontrollers”, which summarizes all available microcontroller variants. This document describes the derivatives of the device.The derivatives and summarizes the differences. Table 1 TC1197 Derivative Synopsis Derivative SAK-TC1197-512F180E SAK-TC1197-256F180E Data Sheet Ambient Temperature Program Flash CPU Range ...

Page 11

Introduction This Data Sheet describes the Infineon TC1197, a 32-bit microcontroller DSP, based on the Infineon TriCore Architecture. 2.1 About this Document This document is designed to be read primarily by design engineers and software engineers who need a ...

Page 12

In chapters describing the kernels ...

Page 13

Reserved, Undefined, and Unimplemented Terminology In tables where register bit fields are defined, the following conventions are used to indicate undefined and unimplemented function. Furthermore, types of bits and bit fields are defined using the abbreviations as shown in ...

Page 14

Table 3 Access Terms Symbol Description U Access Mode: Access permitted in User Mode Reset Value: Value or bit is not changed by a reset operation. SV Access permitted in Supervisor Mode. R Read-only register. 32 Only ...

Page 15

CSA Context Save Area CSFR Core Special Function Register DAP Device Access Port DAS Device Access Server DCACHE Data Cache DFLASH Data Flash Memory DGPR Data General Purpose Register DMA Direct Memory Access DMI Data Memory Interface EBU External Bus ...

Page 16

NC Not Connected NMI Non-Maskable Interrupt OCDS On-Chip Debug Support OVRAM Overlay Memory PCP Peripheral Control Processor PMU Program Memory Unit PLL Phase Locked Loop PCODE PCP Code Memory PFLASH Program Flash Memory PMI Program Memory Interface PMU Program Memory ...

Page 17

System Architecture of the TC1197 The TC1197 combines three powerful technologies within one silicon die, achieving new levels of power, speed, and economy for embedded applications: • Reduced Instruction Set Computing (RISC) processor architecture • Digital Signal Processing (DSP) ...

Page 18

TC1197 Block Diagram Figure 1-1 shows the block diagram of the TC1197. PMI 24 KB SPRAM 32 KB SPRAM 16 KB ICACHE (Configurable ICACHE EBU PMU0 PMU1 2 MB PFlash 64 KB DFlash 2 MB PFlash 8 ...

Page 19

System Features The TC1197 has the following features: Package • PG-BGA-416-10 package, 1mm pitch Clock Frequencies for the 180 MHz derivative • Maximum CPU clock frequency: 180 MHz • Maximum PCP clock frequency: 180 MHz • Maximum system clock ...

Page 20

CPU Cores of the TC1197 The TC1197 includes a high Performance CPU and a Peripheral Control Processor. 2.2.3.1 High-performance 32-bit CPU This chapter gives an overview about the TriCore 1 architecture. TriCore (TC1.3.1) Architectural Highlights • Unified RISC MCU/DSP ...

Page 21

Kbyte Data Cache (DACHE) • On-chip SRAMs with parity error detection 2.2.3.2 High-performance 32-bit Peripheral Control Processor The PCP is a flexible Peripheral Control Processor optimized for interrupt handling and thus unloading the CPU. Features • Data move ...

Page 22

On-Chip System Units The TC1197 microcontroller offers several versatile on-chip system peripheral units such as DMA controller, embedded Flash module, interrupt system and ports. 2.3.1 Flexible Interrupt System The TC1197 includes a programmable interrupt system with the following features: ...

Page 23

Source and destination address register – Channel control and status register – Transfer count register • Flexible interrupt generation (the service request node logic for the MLI channel is also implemented in the DMA module) • DMA module is ...

Page 24

System Timer The TC1197’s STM is designed for global system timing applications requiring both high precision and long range. Features • Free-running 56-bit counter • All 56 bits can be read synchronously • Different 32-bit portions of the 56-bit ...

Page 25

Figure 2 provides an overview on the STM module. It shows the options for reading parts of STM content. to DMA etc. STM IRQ0 Interrupt STM Control IRQ1 Enable / Disable Clock f Control STM STM_TIM5 Address Decoder PORST Figure ...

Page 26

System Control Unit The following SCU introduction gives an overview about the TC1197 System Control Unit (SCU) For Information about the SCU see chapter 3. 2.3.4.1 Clock Generation Unit The Clock Generation Unit (CGU) allows a very flexible clock ...

Page 27

Trigger sources that need a clock in order to be asserted, such as the input signals ESR0, ESR1, the WDT trigger, the parity trigger, or the SW trigger. 2.3.4.4 External Interface The SCU provides interface pads for system purpose. ...

Page 28

The Boot ROM interface. • The Emulation Memory interface. • The Local Memory Bus LMB slave interface. Following memories are controlled by and belong to the PMU0: • 2 Mbyte of Program Flash memory (PFlash) • 64 Kbyte of ...

Page 29

The following figure shows the block diagram of the PMU0: PMU0 Overlay RAM Interface 64 OVRAM Emulation Memory Interface Emulation Memory (ED chip only ) Figure 3 PMU0 Basic Block Diagram As described before the PMU1 is reduced to the ...

Page 30

Overlay RAM and Data Acquisition The overlay memory OVRAM is provided in the PMU especially for redirection of data accesses to program memory to the OVRAM by using the data overlay function. The data overlay functionality itself is controlled ...

Page 31

In TC1197 the PMU1 contains 2 Mbyte of Program Flash realized as one Flash bank. It does not contain any Data Flash. Since in TC1197 the two PMUs can work in parallel, further combinations of concurrent operations are supported if ...

Page 32

Flash by the CPU, but may also be issued by the DMA controller (or OCDS). The Flash also features an advanced read/write protection architecture, including a read protection for the whole Flash array (optionally without Data Flash) ...

Page 33

Overlay support with SRAM for calibration applications. • Configurable wait state selection for different CPU frequencies. • Endurance = 1000; minimum 1000 program/erase cycles per physical sector; reduced endurance of 100 per 16 KB sector. • Operating lifetime (incl. ...

Page 34

Data Access Overlay The data overlay functionality provides the capability to redirect data accesses by the TriCore to program memory (internal Program Flash or external memory) to the Overlay SRAM in the PMU the Emulation Memory in ...

Page 35

Flexible Peripheral Interconnect Buses (FPI Bus) for on-chip interconnections and its FPI Bus control unit (SBCU) • The System Timer (STM) with high-precision, long-range timing capabilities • The TC1197 includes a power management system, a watchdog timer as well ...

Page 36

On-Chip Peripheral Units of the TC1197 The TC1197 microcontroller offers several versatile on-chip peripheral units such as serial controllers, timer units, and Analog-to-Digital converters. Several I/O lines on the TC1197 ports are reserved for these peripheral units to communicate ...

Page 37

Asynchronous/Synchronous Serial Interfaces The TC1197 includes two Asynchronous/Synchronous Serial Interfaces, ASC0 and ASC1. Both ASC modules have the same functionality. Figure 5 shows a global view of the Asynchronous/Synchronous Serial Interface (ASC). f Clock ASC Control Address Decoder EIR ...

Page 38

Features • Full-duplex asynchronous operating modes – 8-bit or 9-bit data frames, LSB first – Parity-bit generation/checking – One or two stop bits – Baud rate from 5.625 Mbit/s to 1.34 bit MHz module clock) – Multiprocessor mode ...

Page 39

High-Speed Synchronous Serial Interfaces The TC1197 includes two High-Speed Synchronous Serial Interfaces, SSC0 and SSC1. Both SSC modules have the same functionality. Figure 6 shows a global view of the Synchronous Serial interface (SSC). f SSC Clock f Control ...

Page 40

Features • Master and Slave Mode operation – Full-duplex or half-duplex operation – Automatic pad control possible • Flexible data format – Programmable number of data bits bits – Programmable shift direction: LSB or MSB shift first ...

Page 41

Micro Second Channel Interface The TC1197 includes two Micro Second Channel interfaces, MSC0 and MSC1. Both MSC modules have the same functionality. Each Micro Second Channel (MSC) interface provides serial communication links typically used to connect power switches or ...

Page 42

Features • Fast synchronous serial interface to connect power switches in particular, or other peripheral devices via serial buses • High-speed synchronous serial transmission on downstream channel – Serial output clock frequency: – Fractional clock divider for precise frequency control ...

Page 43

MultiCAN Controller The MultiCAN module provides four independent CAN nodes, representing four serial communication interfaces. The number of available message objects is 128. f CAN Clock f Control CLC Message Object Buffer Address Decoder Objects Interrupt Control Figure 8 ...

Page 44

Features • Compliant with ISO 11898 • CAN functionality according to CAN specification V2.0 B active • Dedicated control registers for each CAN node • Data transfer rates Mbit/s • Flexible and powerful message transfer control and ...

Page 45

interrupt output lines are available. Interrupt requests can be routed individually to one of the 16 interrupt output lines. – Message post-processing notifications can be combined flexibly into a dedicated register field of 256 notification bits. ...

Page 46

Micro Link Serial Bus Interface This TC1197 contains two Micro Link Serial Bus Interfaces, MLI0 and MLI1. The Micro Link Interface (MLI fast synchronous serial interface to exchange data between microcontrollers or other devices, such as stand-alone ...

Page 47

Figure 10 shows a general block diagram of the MLI module. f Fract. SYS Divider TR[3:0] BRKOUT Move SR[7:0] Engine Figure 10 General Block Diagram of the MLI Modules The MLI transmitter and MLI receiver communicate with other MLI receivers ...

Page 48

General Purpose Timer Array (GPTA) The TC1197 contains the General Purpose Timer Array (GPTA0), plus the additional Local Timer Cell Array (LTCA2). The GPTA provides a set of timer, compare, and capture functionalities that can be flexibly combined to ...

Page 49

Functionality of GPTA0 The General Purpose Timer Array (GPTA0) provides a set of hardware modules required for high-speed digital signal processing: • Filter and Prescaler Cells (FPC) support input noise filtering and prescaler operation. • Phase Discrimination Logic units ...

Page 50

Mode, GPTA signal frequency in 3-sensor Mode • Duty Cycle Measurement (DCM) – Four independent units – 100% margin and time-out handling f – maximum resolution GPTA f – ...

Page 51

On-chip Trigger Unit • 16 on-chip trigger signals I/O Sharing Unit • Interconnecting inputs and outputs from internal clocks, FPC, GTC, LTC, ports, and MSC interface 2.5.6.2 Functionality of LTCA2 The Local Timer Cell Array (LTCA2) provides a set of ...

Page 52

Analog-to-Digital Converters The TC1197 includes three Analog to Digital Converter modules (ADC0, ADC1, ADC2) and one Fast Analog to Digital Converter (FADC). 2.5.7.1 ADC Block Diagram The analog to digital converter module (ADC) allows the conversion of analog input ...

Page 53

Input voltage range from 0V to analog supply voltage • Analog supply voltage range from 3 (single supply) (5V nominal supply voltage, performance degradation accepted for lower voltages) • Input multiplexer width of 16 possible ...

Page 54

FADC Short Description General Features • Extreme fast conversion, 21 cycles of • 10-bit A/D conversion (higher resolution can be achieved by averaging of consecutive conversions in digital data reduction filter) • Successive approximation conversion method • Two differential ...

Page 55

As shown in Figure 13, the main FADC functional blocks are: • An Input Structure containing the differential inputs and impedance control. • An A/D Converter Stage responsible for the analog-to-digital conversion including an input multiplexer to select between the ...

Page 56

Analog Input Stages FAIN0P Rp FAIN0N Rn Rp FAIN2P FAIN2N Rn Rp FAIN1P FAIN1N Rn Rp FAIN3P FAIN3N DDIF Figure 14 FADC Input Structure in TC1197 Data Sheet Channel Amplifier Stages V DDMF V SSMF V DDMF ...

Page 57

External Bus Interface The External Bus Unit (EBU) of the TC1197 controls the accesses from peripheral units to external memories. Features: • 64-bit internal LMB interface • 32-bit demultiplexed / 16-bit multiplexed external bus interface (3.3V, 2.5V) – Support ...

Page 58

On-Chip Debug Support The classic software debug approach (start/stop, single-stepping) is supported by several features labelled “OCDS Level 1”: • Run/stop and single-step execution independently for TriCore and PCP. • Means to request all kinds of reset without usage ...

Page 59

Changing the configuration is triggered by a single SFR access to maintain consistency. • Overlay configuration switch does not require the TriCore to be stopped or suspended. • Invalidation of the Data Cache (maintaining write-back data) can be done ...

Page 60

SSCM (Single Scan Chain Mode 1) This function requires access to some device pins (e.g. TESTMODE) in addition to those needed for OCDS. Data Sheet 1) ) for structural scan testing of the chip itself. 56 TC1197 Introduction V1.1, ...

Page 61

Pinning 3.1 TC1197 Pin Definition and Functions: PG-BGA-416-10 Figure 15 is showing the TC1197 Logic Symbol for the package variant: PG-BGA-416-10. PORST TESTMODE General Control ESR0 ESR1 TRST TCK / DAP0 TDI / BRKIN/ OCDS / BRKOUT JTAG Control ...

Page 62

TC1197 PG-BGA-416-10 Package Variant Pin Configuration Figure 16 shows the TC1197 pin configuration for the PG-BGA-416-10 package variant N.C. P2.9 P2.13 P2.15 P0.14 P0.5 P0.2 B P2.6 P2.7 P2.10 P2.14 P0.9 ...

Page 63

Table 4 Pin Definitions and Functions (BGA-416 Package) Pin Symbol Ctrl. Port 0 A9 P0.0 I/O0 HWCFG0 I OUT56 O1 OUT56 O2 OUT80 O3 A8 P0.1 I/O0 HWCFG1 I OUT57 O1 OUT57 O2 OUT81 O3 A7 P0.2 I/O0 HWCFG2 I ...

Page 64

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. B7 P0.4 I/O0 HWCFG4 I OUT60 O1 OUT60 O2 OUT84 O3 A6 P0.5 I/O0 HWCFG5 I OUT61 O1 OUT61 O2 OUT85 O3 B6 P0.6 I/O0 HWCFG6 I OUT62 ...

Page 65

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. B5 P0.9 I/O0 Reserved I Reserved O1 Reserved O2 Reserved O3 C6 P0.10 I/O0 Reserved O1 Reserved O2 Reserved O3 D6 P0.11 I/O0 Reserved O1 Reserved O2 Reserved ...

Page 66

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. D4 P0.15 I/O0 Reserved O1 Reserved O2 Reserved O3 Port 1 P3 P1.0 I/O0 REQ0 I EXTCLK1 O1 Reserved O2 Reserved O3 P2 P1.1 I/O0 REQ1 I Reserved ...

Page 67

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. N4 P1.4 I/O0 TCLK0 O1 Reserved O2 Reserved O3 M4 P1.5 I/O0 TREADY0A I Reserved O1 Reserved O2 Reserved O3 N3 P1.6 I/O0 TVALID0A O1 SLSO10 O2 Reserved ...

Page 68

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. M1 P1.10 I/O0 RVALID0A I OUT66 O1 OUT66 O2 OUT90 O3 L4 P1.11 I/O0 RData0A I OUT67 O1 OUT67 O2 OUT91 O3 P4 P1.12 I/O0 EXTCLK0 O1 OUT68 ...

Page 69

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. L1 P1.15 I/O0 RData0B I OUT70 O1 OUT70 O2 OUT95 O3 Port 2 D3 P2.2 I/O0 SLSO02 O1 SLSO12 O2 SLSO02 O3 AND SLSO12 D2 P2.3 I/O0 SLSO03 ...

Page 70

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. C1 P2.5 I/O0 SLSO05 O1 SLSO15 O2 SLSO05 O3 AND SLSO15 B1 P2.6 I/O0 SLSO06 O1 SLSO16 O2 SLSO06 O3 AND SLSO16 B2 P2.7 I/O0 SLSO07 O1 SLSO17 ...

Page 71

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. A2 P2.9 I/O0 IN1 I IN1 I IN1 I OUT1 O1 OUT1 O2 OUT1 O3 B3 P2.10 I/O0 IN2 I IN2 I IN2 I OUT2 O1 OUT2 O2 ...

Page 72

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. C4 P2.12 I/O0 IN4 I IN4 I IN4 I OUT4 O1 OUT4 O2 OUT4 O3 A3 P2.13 I/O0 IN5 I IN5 I IN5 I OUT5 O1 OUT5 O2 ...

Page 73

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. A4 P2.15 I/O0 IN7 I IN7 I IN7 I OUT7 O1 OUT7 O2 OUT7 O3 Port 3 B12 P3.0 I/O0 IN8 I IN8 I IN8 I OUT8 O1 ...

Page 74

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. C13 P3.2 I/O0 IN10 I IN10 I IN10 I OUT10 O1 OUT10 O2 OUT10 O3 B11 P3.3 I/O0 IN11 I IN11 I IN11 I OUT11 O1 OUT11 O2 ...

Page 75

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. A11 P3.5 I/O0 IN13 I IN13 I IN13 I OUT13 O1 OUT13 O2 OUT13 O3 B10 P3.6 I/O0 IN14 I IN14 I IN14 I OUT14 O1 OUT14 O2 ...

Page 76

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. D10 P3.8 I/O0 IN16 I IN16 I IN16 I OUT16 O1 OUT16 O2 OUT16 O3 C11 P3.9 I/O0 IN17 I IN17 I IN17 I OUT17 O1 OUT17 O2 ...

Page 77

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. D13 P3.11 I/O0 IN19 I IN19 I IN19 I OUT19 O1 OUT19 O2 OUT19 O3 D11 P3.12 I/O0 IN20 I IN20 I IN20 I OUT20 O1 OUT20 O2 ...

Page 78

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. A10 P3.14 I/O0 IN22 I IN22 I IN22 I OUT22 O1 OUT22 O2 OUT22 O3 B9 P3.15 I/O0 IN23 I IN23 I IN23 I OUT23 O1 OUT23 O2 ...

Page 79

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AE10 P4.1 I/O0 IN25 I IN25 I IN25 I OUT25 O1 OUT25 O2 OUT25 O3 AD11 P4.2 I/O0 IN26 I IN26 I IN26 I OUT26 O1 OUT26 O2 ...

Page 80

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AC12 P4.4 I/O0 IN28 I IN28 I IN28 I OUT28 O1 OUT28 O2 OUT28 O3 AD12 P4.5 I/O0 IN29 I IN29 I IN29 I OUT29 O1 OUT29 O2 ...

Page 81

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AE12 P4.7 I/O0 IN31 I IN31 I IN31 I OUT31 O1 OUT31 O2 OUT31 O3 AC13 P4.8 I/O0 IN32 I IN32 I OUT32 O1 OUT32 O2 OUT0 O3 ...

Page 82

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AD13 P4.11 I/O0 IN35 I IN35 I OUT35 O1 OUT35 O2 OUT3 O3 AC14 P4.12 I/O0 IN36 I IN36 I OUT36 O1 OUT36 O2 OUT4 O3 AE13 P4.13 ...

Page 83

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AD14 P4.15 I/O0 IN39 I IN39 I OUT39 O1 OUT39 O2 OUT7 O3 Port 5 B13 P5.0 I/O0 RXD0A I RXD0A O1 OUT72 O2 OUT72 O3 A13 P5.1 ...

Page 84

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. C15 P5.4 I/O0 EN00 O1 RREADY0B O2 OUT76 O3 C14 P5.5 I/O0 SDI0 I OUT77 O1 OUT77 O2 OUT101 O3 B15 P5.6 I/O0 EN10 O1 TVALID0B O2 OUT78 ...

Page 85

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. C16 P5.9 I/O0 SOP0A O1 OUT81 O2 OUT81 O3 C17 P5.10 I/O0 FCLN0 O1 OUT82 O2 OUT82 O3 C18 P5.11 I/O0 FCLP0A O1 OUT83 O2 OUT83 O3 A16 ...

Page 86

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. B17 P5.14 I/O0 FCLN1 O1 OUT86 O2 OUT86 O3 A17 P5.15 I/O0 FCLNP1A O1 OUT87 O2 OUT87 O3 Port 6 F3 P6.4 I/O0 MTSR1 I MTSR1 O1 Reserved ...

Page 87

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. G3 P6.7 I/O0 SLSI11 I Reserved O1 Reserved O2 Reserved O3 F4 P6.8 I/O0 RXDCAN0 I RXD0B I Reserved O1 RXD0B O2 Reserved O3 E4 P6.9 I/O0 TXDCAN0 ...

Page 88

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. E2 P6.11 I/O0 TXDCAN1 O1 TXD1 O2 Reserved O3 E1 P6.12 I/O0 RXDCAN2 I Reserved I Reserved O1 Reserved O2 Reserved O3 G2 P6.13 I/O0 TXDCAN2 O1 Reserved ...

Page 89

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. Port 7 R3 P7.0 I/O0 REQ4 I AD2EMUX0 O1 Reserved O2 Reserved O3 R2 P7.1 I/O0 REQ5 I AD0EMUX2 O1 Reserved O2 Reserved O3 U4 P7.2 I/O0 AD0EMUX0 ...

Page 90

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. T2 P7.5 I/O0 REQ7 I AD2EMUX1 O1 Reserved O2 Reserved O3 T1 P7.6 I/O0 AD1EMUX0 O1 Reserved O2 Reserved O3 U2 P7.7 I/O0 AD1EMUX1 O1 Reserved O2 Reserved ...

Page 91

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. H1 P8.1 I/O0 IN41 I IN41 I TREADY1A I OUT41 O1 OUT41 O2 Reserved O3 J3 P8.2 I/O0 IN42 I IN42 I OUT42 O1 OUT42 O2 TVALID1A O3 ...

Page 92

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. K2 P8.5 I/O0 IN45 I IN45 I OUT45 O1 OUT45 O2 RREADY1A O3 K3 P8.6 I/O0 IN46 I IN46 I RVALID1A I OUT46 O1 OUT46 O2 Reserved O3 ...

Page 93

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. A19 P9.0 I/O0 IN48 I IN48 I OUT48 O1 OUT48 O2 EN12 O3 B19 P9.1 I/O0 IN49 I IN49 I OUT49 O1 OUT49 O2 EN11 O3 B20 P9.2 ...

Page 94

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. D18 P9.4 I/O0 IN52 I IN52 I OUT52 O1 OUT52 O2 EN03 O3 ’D19 P9.5 I/O0 IN53 I IN53 I OUT53 O1 OUT53 O2 EN02 O3 C19 P9.6 ...

Page 95

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. C20 P9.8 I/O0 FCLP0B O1 FCLP0B O2 FCLP0B O3 A21 P9.9 I/O0 Reserved O1 Reserved O2 Reserved O3 B21 P9.10 I/O0 EMGSTOP I Reserved O1 Reserved O2 Reserved ...

Page 96

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. C26 P9.13 I/O0 BRKIN I Reserved O1 Reserved O2 Reserved O3 BRKOUT O D26 P9.14 I/O0 BRKIN I Reserved O1 Reserved O2 Reserved O3 BRKOUT O Port 10 ...

Page 97

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AD15 P10.2 I/O0 SLSI01 I Reserved O1 Reserved O2 Reserved O3 AF14 P10.3 I/O0 SCLK0 I SCLK0 O1 Reserved O2 Reserved O3 AE14 P10.4 I/O0 SLSO00 O1 Reserved ...

Page 98

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. K25 P11.1 I/O0 Reserved O1 Reserved O2 Reserved K26 P11.2 I/O0 Reserved O1 Reserved O2 Reserved J23 P11.3 I/O0 Reserved O1 Reserved ...

Page 99

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. L26 P11.6 I/O0 Reserved O1 Reserved O2 Reserved K23 P11.7 I/O0 Reserved O1 Reserved O2 Reserved M26 P11.8 I/O0 Reserved O1 Reserved ...

Page 100

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. L24 P11.11 I/O0 Reserved O1 Reserved O2 Reserved O3 A11 O N26 P11.12 I/O0 Reserved O1 Reserved O2 Reserved O3 A12 O N23 P11.13 I/O0 Reserved O1 Reserved ...

Page 101

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. P26 P12.0 I/O0 Reserved O1 Reserved O2 Reserved O3 A16 O P24 P12.1 I/O0 Reserved O1 Reserved O2 Reserved O3 A17 O P25 P12.2 I/O0 Reserved O1 Reserved ...

Page 102

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. R25 P12.5 I/O0 Reserved O1 Reserved O2 Reserved O3 A21 O J24 P12.6 I/O0 Reserved O1 Reserved O2 Reserved O3 A22 O J25 P12.7 I/O0 Reserved O1 Reserved ...

Page 103

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. T24 P13.1 I/O0 AD1 I OUT89 O1 OUT89 O2 OUT81 O3 AD1 O U26 P13.2 I/O0 AD2 I OUT90 O1 OUT90 O2 OUT82 O3 AD2 O T25 P13.3 ...

Page 104

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. U25 P13.5 I/O0 AD5 I OUT93 O1 OUT93 O2 OUT85 O3 AD5 O U23 P13.6 I/O0 AD6 I OUT94 O1 OUT94 O2 OUT86 O3 AD6 O W26 P13.7 ...

Page 105

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. U24 P13.9 I/O0 AD9 I OUT97 O1 OUT97 O2 OUT89 O3 AD9 O Y26 P13.10 I/O0 AD10 I OUT98 O1 OUT98 O2 OUT90 O3 AD10 O AA26 P13.11 ...

Page 106

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. V24 P13.13 I/O0 AD13 I OUT101 O1 OUT101 O2 OUT93 O3 AD13 O Y25 P13.14 I/O0 AD14 I OUT102 O1 OUT102 O2 OUT94 O3 AD14 O AB26 P13.15 ...

Page 107

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AA25 P14.1 I/O0 AD17 I OUT97 O1 OUT97 O2 OUT97 O3 AD17 O Y24 P14.2 I/O0 AD18 I OUT98 O1 OUT98 O2 OUT98 O3 AD18 O AA23 P14.3 ...

Page 108

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AB24 P14.5 I/O0 AD21 I OUT101 O1 OUT101 O2 OUT101 O3 AD21 O AA24 P14.6 I/O0 AD22 I OUT102 O1 OUT102 O2 OUT102 O3 AD22 O AC26 P14.7 ...

Page 109

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AC25 P14.9 I/O0 AD25 I OUT105 O1 OUT105 O2 OUT105 O3 AD25 O AE26 P14.10 I/O0 AD26 I OUT106 O1 OUT106 O2 OUT106 O3 AD26 O AD25 P14.11 ...

Page 110

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AE25 P14.13 I/O0 AD29 I OUT109 O1 OUT109 O2 OUT109 O3 AD29 O AE24 P14.14 I/O0 AD30 I OUT110 O1 OUT110 O2 OUT110 O3 AD30 O AD24 P14.15 ...

Page 111

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AD21 P15.1 I/O0 Reserved O1 Reserved O2 Reserved O3 CS1 O AD20 P15.2 I/O0 Reserved O1 Reserved O2 Reserved O3 CS2 O AD19 P15.3 I/O0 Reserved O1 Reserved ...

Page 112

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AF18 P15.6 I/O0 Reserved O1 Reserved O2 Reserved O3 BC2 O AE18 P15.7 I/O0 Reserved O1 Reserved O2 Reserved O3 BC3 O AF20 P15.8 I/O0 Reserved O1 Reserved ...

Page 113

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AE20 P15.11 I/O0 WAIT I Reserved O1 Reserved O2 Reserved O3 AF19 P15.12 I/O0 Reserved O1 Reserved O2 Reserved O3 MR/W O AF23 P15.13 I/O0 Reserved O1 Reserved ...

Page 114

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. Port 16 AF17 P16.0 I/O0 HOLD I Reserved O1 Reserved O2 Reserved O3 AD18 P16.1 I/O0 HLDA I Reserved O1 Reserved O2 Reserved O3 HLDA O AD22 P16.2 ...

Page 115

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AB3 AN3 I AC2 AN4 I AA3 AN5 I AD1 AN6 I AB4 AN7 I AC1 AN8 I AB2 AN9 I Y3 AN10 I AA2 AN11 I AB1 ...

Page 116

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. AF6 AN29 I AE7 AN30 I AF7 AN31 I AC3 AN32 I AE2 AN33 I AD3 AN34 I AD5 AN35 I AE3 AN36 I AF2 AN37 I AC4 ...

Page 117

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. E25 TDI I BRKIN I BRKOUT O B23 TESTMODE I F24 TMS I DAP1 I/O TRST F23 I G26 XTAL1 I G25 XTAL2 O D25 TDO O BRKIN ...

Page 118

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. V AF5 - AGND0 V - AGND2 AD6 V - AREF1 AC6 V - AGND1 V AD9 - AREF2 V AF8 - FAREF V AE8 - FAGND V ...

Page 119

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. V AC11 AC20, AB23, V23, P23, E23, D24, C25, B26, D16, D9, H4 AC16, - DDP AD16, AE16, AF16, D22, C23, B24, A25, D14, ...

Page 120

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. V AC10 AC17, AC19, AC23, W23, R23, L23, D23, C24, B25, A26, D15, D8, J4 K10 K11, K12, K13, K14, K15, K16, ...

Page 121

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. V N10 N11, N12, N13, N14, N15, N16, N17 V P10 P11, P12, P13, P14, P15, P16, P17 V R10 R11, R12, ...

Page 122

Table 4 Pin Definitions and Functions (BGA-416 Package) (cont’d) Pin Symbol Ctrl. V U10 U11, U12, U13, U14, U15, U16, U17 1) This pin is also connected to the analog power supply for comparator of the ADC module. ...

Page 123

Table 5 List of Pull-Up/Pull-Down Reset Behavior of the Pins Pins ESR0 ESR1 TDO 1) Valid additionally after deactivation of PORST until the internal reset phase has finished. See the SCU chapter for details. 2) See the SCU_IOCR register description. ...

Page 124

Identification Registers The Identification Registers uniquely identify a module or the whole device. Table 4-1 TC1197 Identification Registers Short Name Value ADC0_ID 0059 C000 ADC1_ID 0059 C000 ADC2_ID 0059 C000 ASC0_ID 0000 4402 ASC1_ID 0000 4402 CAN_ID 002B C051 ...

Page 125

Table 4-1 TC1197 Identification Registers (cont’d) Short Name Value PCP_ID 0020 C006 PMI_ID 000B C005 PMU0_ID 0050 C001 PMU1_ID 0051 C001 SBCU_ID 0000 6A0C SCU_CHIPID 0000 9001 SCU_ID 0052 C001 SCU_MANID 0000 1820 SCU_RTID 0000 0003 SSC0_ID 0000 4511 SSC1_ID ...

Page 126

Electrical Parameters 5.1 General Parameters 5.1.1 Parameter Interpretation The parameters listed in this section partly represent the characteristics of the TC1197 and partly its requirements on the system. To aid interpreting the parameters easily when evaluating them for a ...

Page 127

Pad Driver and Pad Classes Summary This section gives an overview on the different pad driver classes and its basic characteristics. More details (mainly DC parameters) are defined in the Table 6 Pad Driver and Pad Classes Overview Class ...

Page 128

Absolute Maximum Ratings Stresses above those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated ...

Page 129

Table 7 Absolute Maximum Rating Parameters Parameter CPU Frequency PCP Frequency 1) Applicable for DDOSC 2) Applicable for DDP DDEBU 5.1.4 Operating Conditions The following operating conditions must not be ...

Page 130

Table 8 Operating Condition Parameters Parameter Analog supply voltages – Overload current at class D pins Sum of overload current at class D pins Overload coupling 5) factor for analog inputs CPU & LMB Bus Frequency PCP Frequency FPI Bus ...

Page 131

See additional document “TC1767 Pin Reliability in Overload“ for definition of overload current on digital pins. 5) The overload coupling factor (kA) defines the worst case relation of an overload condition (IOV) at one pin to the resulting leakage ...

Page 132

Table 9 Pin Groups for Overload / Short-Circuit Current Sum Parameter Group Pins 21 P9.[14:13, 10:9] 22 P9.[12:11, 8: P9.[6: P9.[0, 4], P5.[10, 11] 25 P5.[15:14, 9:8] 26 P5.[13:12 P5.[7: ...

Page 133

DC Parameters 5.2.1 Input/Output Pins Table 10 Input/Output DC-Characteristics (Operating Conditions apply) Parameter Symbol General Parameters 1) Pull-up current | I | PUH I Pull-down | | PDL 1) current 1) Pin capacitance C IO (Digital I/O) V Input ...

Page 134

Table 10 Input/Output DC-Characteristics (cont’d)(Operating Conditions apply) Parameter Symbol Spike filter always t SF1 blocked pulse duration Spike filter pass- t SF2 through pulse duration V Class A Pads ( = 3. 3.3V ± 5%) DDP ...

Page 135

Table 10 Input/Output DC-Characteristics (cont’d)(Operating Conditions apply) Parameter Symbol I Input leakage OZA2 current Class A2 pins I Input leakage OZA1 current Class A1 pins V Class B Pads ( = 2.375 to 3.47 V) DDEBU Output low voltage V ...

Page 136

Table 10 Input/Output DC-Characteristics (cont’d)(Operating Conditions apply) Parameter Symbol Class F Pads, CMOS Mode ( V Input low voltage ILF Class F pins V Input high voltage IHF Class F pins Input hysteresis HYSF Class F pins I Input leakage ...

Page 137

Analog to Digital Converters (ADC0/ADC1/ADC2) All ADC parameters are optimized for and valid in the range of Table 11 ADC Characteristics (Operating Conditions apply) Parameter Symbol V Analog supply DDM voltage Analog ground SSM voltage Analog ...

Page 138

Table 11 ADC Characteristics (cont’d) (Operating Conditions apply) Parameter Symbol 9)5) Gain error EA GAIN 9)5) Offset error EA OFF I Input leakage CC OZ1 current at analog inputs of ADC0/1 11) 12) 13) Input leakage I OZ2 current at ...

Page 139

Table 11 ADC Characteristics (cont’d) (Operating Conditions apply) Parameter Symbol C Switched AINSW capacitance at the analog voltage inputs R ON resistance of AIN the transmission gates in the analog voltage path R ON resistance AIN7T for the ADC test ...

Page 140

Only one of these parameters is tested, the other is verified by design characterization. 13) The leakage current decreases typically 30% for junction temperature decrease of 10oC. 14 valid for the minimum specified conversion time. The current ...

Page 141

R EXT AIN V Figure 18 ADC0/ADC1 Input Circuits ...

Page 142

Fast Analog to Digital Converter (FADC) All parameters apply to FADC used in differential mode, which is the default and the intended mode of operation, and which takes advantage of many error cancelation effects inherent to differential measurements in ...

Page 143

Table 13 FADC Characteristics (Operating Conditions apply) (cont’d) Parameter Symbol t Conversion time C Converter Clock f FADC R Input resistance of FAIN the analog voltage path (Rn, Rp) f Channel Amplifier COFF 9) Cutoff Frequency t Settling Time of ...

Page 144

FAINxN V FAGND FAINxP V V FAREF V Figure 20 FADC Input Circuits Data Sheet FADC Analog Input Stage FAREF R P FADC Reference Voltage Input Circuitry FAREF I FAREF FAGND 140 Electrical Parameters - + /2 ...

Page 145

Oscillator Pins Table 14 Oscillator Pins Characteristics (Operating Conditions apply) Parameter Symbol Frequency Range f OSC V Input low voltage at ILX 1) XTAL1 V Input high voltage at IHX 1) XTAL1 I Input current at IX1 XTAL1 1) ...

Page 146

The following formula calculates the temperature measured by the DTS in [ RESULT bitfield of the DTSSTAT register. Data Sheet DTSSTAT RESULT Tj = ----------------------------------------------------------------- - 142 TC1197 Electrical Parameters o C] from the 619 – V1.1, ...

Page 147

Power Supply Current The default test conditions (differences explicitly specified) are: VDD=1.58 V, VDD=3.47 V, fCPU=180 MHz, Tj=150oC Table 16 Power Supply Currents (Operating Conditions apply) Parameter Core active mode 1)2) supply current Realistic core active 3) 4) mode ...

Page 148

I 3) The decreases by typically the DD Realistic Pattern. The dependency in this range is, at constant junction temperature, linear. 4) Not tested in production separately, verified by design / characterization. 5) This value assumes worst ...

Page 149

AC Parameters All AC parameters are defined with the temperature compensation disabled. That means, keeping the pads constantly at maximum strength. 5.3.1 Testing Waveforms V DDP V DDEBU 10 Figure 21 Rise/Fall Time Parameters V DDP V ...

Page 150

Output Rise/Fall Times Table 17 Output Rise/Fall Times (Operating Conditions apply) Parameter Symbol Class A1 Pads Rise/fall times , RA1 FA1 Class A2 Pads t t Rise/fall times , RA2 FA2 1) Class B Pads 3.3V ...

Page 151

Power Sequencing V 5V 3.3V 1.5V V DDP Figure 3 1.5 V Power-Up/Down Sequence The following list of rules applies to the power-up/down sequence: • All ground pins V must be externally connected ...

Page 152

VDDP ), are internally directly connected recommended that the power pins of the same voltage are driven by a single power supply. • The PORST signal may be deactivated after all VDD5, VDD3.3, VDD1.5, and VAREF power-supplies ...

Page 153

Power, Pad and Reset Timing Table 18 Power, Pad and Reset Timing Parameters Parameter V Min. voltage to ensure DDP 1) defined pad states 2) Oscillator start-up time Minimum PORST active time after power supplies are stable at operating ...

Page 154

Applicable for input pins TESTMODE and TRST FPI CPU 6) Not subject to production test, verified by design / characterization. 7) This parameter includes the delay of the analog spike filter in the PORST ...

Page 155

Phase Locked Loop (PLL) Note: All PLL characteristics defined on this and the next page are not subject to production test, but verified by design characterization. Table 19 PLL Parameters (Operating Conditions apply) Parameter Accumulated jitter VCO frequency range ...

Page 156

With rising number of clock cycles the maximum jitter increases linearly value m of that is defined by the K2-factor of the PLL. Beyond this value of accumulated jitter remains at a constant value. Further, a ...

Page 157

These conditions can be achieved by appropriate blocking of the supply voltage as near as possible to the supply pins and using PCB supply and ground planes. Data Sheet Electrical Parameters 153 TC1197 V1.1, 2009-05 ...

Page 158

BFCLKO Output Clock Timing 1.5 V ± 5 -40 °C to +125 ° Table 20 BFCLK0 Output Clock Timing Parameters Parameter BFCLKO clock period BFCLKO high time ...

Page 159

JTAG Interface Timing The following parameters are applicable for communication through the JTAG debug interface. The JTAG module is fully compliant with IEEE1149.1-2000. Note: These parameters are not subject to production test but verified by design and/or characterization. Table ...

Page 160

V 0 Figure 28 Test Clock Timing (TCK) TCK TMS TDI t 9 TDO Figure 29 JTAG Timing Data Sheet 156 ...

Page 161

DAP Interface Timing The following parameters are applicable for communication through the DAP debug interface. Note: These parameters are not subject to production test but verified by design and/or characterization. Table 22 DAP Interface Timing Parameters (Operating Conditions apply) ...

Page 162

DAP0 DAP1 Figure 31 DAP Timing Host to Device DAP1 Figure 32 DAP Timing Device to Host Data Sheet Electrical Parameters 158 TC1197 MC_ DAP1_RX MC_ DAP1_TX V1.1, ...

Page 163

EBU Timings 1.5 V ± 5 -40 °C to +125 ° 5.3.9.1 EBU Asynchronous Timings For each timing, the accumulated PLL jitter of the programed duration in ...

Page 164

Read Timings Table 24 Asynchronous read timings, multiplexed and demultiplexed Parameter A(23:0) output delay A(23:0) output delay CS rising edge ADV rising edge BC rising edge WAIT input setup WAIT input hold Data input setup Data input hold MR / ...

Page 165

Multiplexed Read Timing Address EBU Phase STATE Control Bitfield: ADDRC Duration Limits in 1...15 EBU_CLK Cycles A[23:0] CS[3:0] CSCOMB ADV RD BC[3:0] WAIT Address Out AD[31:0] MR programmed value, T ...

Page 166

Demultiplexed Read Timing Address EBU Phase STATE Control Bitfield: ADDRC Duration Limits in 1...15 EBU_CLK Cycles A[23:0] CS[3:0] CSCOMB pv + ADV RD BC[3:0] WAIT AD[31:0] MR programmed value sum (correponding bitfield values) EBU_CLK Figure 34 ...

Page 167

Write Timings Table 25 Asynchronous write timings, multiplexed and demultiplexed Parameter A(23:0) output delay to RD/WR rising edge, deviation from the ideal A(23:0) output delay programmed value. CS rising edge ADV rising edge BC rising edge WAIT input setup WAIT ...

Page 168

Multiplexed Write Timing Address EBU Phase STATE Control Bitfield: ADDRC Duration Limits in 1...15 EBU_CLK Cycles A[23:0] CS[3:0] CSCOMB ADV RD/WR BC[3:0] WAIT AD[31:0] Address Out MR programmed value, T ...

Page 169

Demultiplexed Write Timing Address EBU Phase STATE Control Bitfield: ADDRC Duration Limits in 1...15 EBU_CLK Cycles A[23:0] CS[3:0] CSCOMB ADV RD/WR BC[3:0] WAIT AD[31:0] MR programmed value sum (correponding bitfield values) EBU_CLK ...

Page 170

EBU Burst Mode Access Timing 1.5 V ± 5 -40 °C to +125 ° Table 26 EBU Burst Mode Read / Write Access Timing Parameters Parameter Output ...

Page 171

If the clock feedback is not enabled, the input signals are latched using the internal clock in the same way as at asynchronous access. So t5, t6, t7 and t8 from the asynchronous timings apply. Address Phase(s) BFCLKI 1) ...

Page 172

EBU Arbitration Signal Timing 1.5 V ± 5 -40°C to +125 ° Table 27 EBU Arbitration Signal Timing Parameters Parameter Output delay from BFCLKO rising edge Data ...

Page 173

Peripheral Timings Note: Peripheral timing parameters are not subject to production test. They are verified by design/characterization. 5.3.10.1 Micro Link Interface (MLI) Timing MLI Transmitter Timing t TCLKx TDATAx TVALIDx TREADYx MLI Receiver Timing t RCLKx RDATAx RVALIDx RREADYx ...

Page 174

Note: The generation of RREADYx is in the input clock domain of the receiver. The reception of TREADYx is asynchronous to TCLKx. Table 28 MLI Timings (Operating Conditions apply), C Parameter MLI Transmitter Timing TCLK clock period TCLK high time ...

Page 175

The min./max. TCLK low/high times regarded additionally For high-speed MLI interface, strong driver sharp or medium edge selection (class A2 pad) is recommended for TCLK. 5) The following formula is valid: 6) The min. ...

Page 176

Micro Second Channel (MSC) Interface Timing Table 29 MSC Interface Timing (Operating Conditions apply), C Parameter 1)2) FCLP clock period SOP/ENx outputs delay from FCLP rising edge SDI bit time SDI rise time SDI fall time 1) FCLP signal ...

Page 177

SSC Master/Slave Mode Timing Table 30 SSC Master/Slave Mode Timing (Operating Conditions apply), C Parameter Master Mode Timing SCLK clock period MTSR/SLSOx delay from SCLK rising edge MRST setup to SCLK falling edge MRST hold from SCLK falling edge ...

Page 178

SCLK 1) MTSR 1) MRST 2) SLSOx 1) This timing is based on the following setup: CON.PH = CON. The transition at SLSOx is based on the following setup: SSOTC.TRAIL = 0 and the first SCLK ...

Page 179

Package and Reliability 5.4.1 Package Parameters Table 31 Thermal Characteristics of the Package Device Package TC1197 PG-BGA-416-10 1) The top and bottom thermal resistances between the case and the ambient ( with the thermal resistances between the junction and ...

Page 180

Package Outline A26 Figure 43 Package Outlines PG-BGA-416-10, Plastic (Green) Ball Grid Array Data Sheet 416x +0.07 ø0.63 -0.13 ø0. ø0 ±0.2 24 ±0.5 27 ±0.2 ...

Page 181

You can find all of our packages, sorts of packing and others in Infineon Internet Page. 5.4.3 Flash Memory Parameters The data retention time of the TC1197’s Flash memory (i.e. the time after which stored data can still be retrieved) ...

Page 182

Quality Declarations Table 33 Quality Parameters Parameter Symbol t Operation OP 1) Lifetime ESD susceptibility V HBM according to Human Body Model (HBM) V ESD susceptibility HBM1 of the LVDS pins V ESD susceptibility CDM according to Charged Device ...

Page 183

... Published by Infineon Technologies AG ...