CY8CTMG200-16LGXIT Cypress Semiconductor Corp, CY8CTMG200-16LGXIT Datasheet - Page 169

CY8CTMG200-16LGXIT

Manufacturer Part Number

CY8CTMG200-16LGXIT

Description

IC MCU 32K FLASH 16-COL

Manufacturer

Cypress Semiconductor Corp

Series

TrueTouch™r

Datasheet

1.CY8CTST200-16LGXI.pdf (308 pages)

Specifications of CY8CTMG200-16LGXIT

Applications

Touchscreen Controller

Core Processor

M8C

Program Memory Type

FLASH (32 kB)

Controller Series

CY8CT

Ram Size

2K x 8

Interface

I²C, SPI, UART/USART, USB

Number Of I /o

Voltage - Supply

1.8 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-QFN

Processor Series

CY8CTxx2xx

Core

M8C

Data Bus Width

8 bit

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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(Self-powered devices do not need to go into Suspend

mode.) This condition is detected by monitoring the Bus

Activity bit in the USB_CR1 register. This bit must be polled

periodically. If it reads high (bus activity present), it must be

cleared by firmware. If no activity is detected for the desired

time (for example, 3 ms), then the device must enter Sus-

pend mode.

Not all sleep modes preserve the USB configuration register

states during sleep. The Standby I2C-USB mode is the pre-

ferred sleep mode for USB operation because the state of

all USB registers is maintained during sleep. The other

sleep modes do not preserve all of these registers to save

sleep power.

The USB regulator settings must not be changed when

entering sleep state, since the regulator automatically enters

a low power state for the given regulator mode (pass-

through or regulating).

20.2.5.1

To enter Standby I2C-USB mode, firmware powers down

the desired functions, as it would to enter a Standby I2C-

USB mode sleep state as documented in

trol Implementation Logic on page

SLEEP bit of the CPU_SCR0 register. In this mode, USB

configuration registers and data are preserved during sleep.

20.2.5.2

The Standby and Deep Sleep modes do not have hardware

supported for USB suspend operation because not all USB

registers are preserved in these modes. In USB parts, if

there is a need to enter Standby or Deep Sleep mode, then

user firmware must save the non-retained registers to

SRAM before entering into sleep and restore these registers

once the device wakes up. The list of these registers is

given below. Some configuration registers retain their val-

ues in all sleep modes: USB_CR0, USB_CR1, USBIO_CR0,

USBIO_CR1, IMO_TR, IMO_TR1. In addition, the USB

SRAM contents are preserved in all sleep modes.

The USB registers that retain state in Standby I2C-USB

mode but not in other sleep modes are: the endpoint control

registers

(PMAx_WA)/read address (PMAx_RA) registers, PMA data

registers

(EPx_CNTx), endpoint 0 data register (EP0_DRx) and start

of frame registers (USB_SOFx). These registers are reset

after the device comes out of sleep.

PSoC CY8CTMG20x and CY8CTST200 TRM, Document No. 001-53603 Rev. *C

(EPx_CRx),

(PMAx_DR),

Using Standby I2C-USB Sleep Mode

for USB Suspend

Using Standby or Deep Sleep Modes

for USB Suspend

endpoint

74, including writing the

PMA

10.1.1 Sleep Con-

count

write

registers

address

(An alternative is to simply disconnect from the USB bus

before going into one of these sleep modes, and then re-

connect to re-initialize the USB system after waking up.)

20.2.5.3

The USB wake interrupt must be enabled to allow the device

to exit the sleep state when there is activity on the USB bus.

This interrupt can be enabled at any time since it only

asserts when the device is in the sleep state. Other inter-

rupts may be optionally enabled, such as the sleep interrupt,

GPIO, I2C, to periodically wake the device while in USB

suspend state. The USB wake interrupt can wake up the

device from all the three sleep states (Standby sleep, I2C-

USB sleep and Deep Sleep). If D+ is low when the SLEEP

bit is being set, the device briefly enters sleep state, and

then exits sleep due to the USB wake interrupt.

By carefully using a sleep timer interrupt, the device can

wake periodically, monitor the environment, and return to

sleep while maintaining a low average current that meets

the USB suspend current specification.

If the device needs to issue a resume signal to the USB sys-

tem, firmware can write to the TEN and TD bits in the

USBIO_CR0 register to manually force a K state on the bus.

Using these bits produces signaling that meets the USB tim-

ing specifications.

When driving a resume, the J state (TD=1) must be driven

briefly before driving the K state (TD=0). The steps are sum-

marized as follows:

1. Drive the J state (TEN=1, TD=1) for one instruction.

2. Drive the resume, or K state (TEN=1, TD=0) for the

3. Stop driving the USB bus manually (TEN=0).

20.2.6

The transceiver contains a built-in regulator that can be

used to power the transceiver from the USB bus voltage or

other supply around 5V. The regulator supplies the proper

levels for USB signals, which switch between 0V and 3.3V

nominally. If the PSoC device is operating with a Vdd supply

near 3.3V, then the regulator must be placed into a pass-

through mode so that the Vdd voltage is directly supplied to

the transceiver, without regulation. The RegEnable bit (bit 0

in the USB_CR1 register) is used to pick between the regu-

lating mode (5V supply) or the passthrough mode (3.3V sup-

ply). At power up, the regulator is automatically held in pass-

through mode, but the USB transceiver pins are tristated.

proper time (1 ms to 15 ms).

Regulator

Wakeup from Suspend

Full-Speed USB

169

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